AIPS version = /home/auto/aips/31DEC07/LINUX/SYSTEM/VLA_PIPE/aips
Prep version = Dec 7 2007 /home/vlbacald-b/vlbacald/bin/AVLAPREP.001   
Pipe version = Mar 19 2008 /home/vlbacald-b/vlbacald/bin/AVLAPIPE.001   
Post version = Jan 23 2008 /home/vlbacald-b/vlbacald/bin/AVLAPOST.001   
/home/vlbacald-b/vlbacald/run/AM0308_1990JUL15_1.1.run      started on Sat Feb 28 03:15:33 MST 2009
  -------------
SETFC FILE FOR SOURCE 1328+307 BELOW IS:
C     1  2036  2036   13 31 08.29   30 30 33.0
00001  -1   1019   1024   1025
C     2  2036  2036   13 31 08.29   30 18 18.5
00002  -1   1019   1024   1025
C     3  2036  2036   13 30 19.12   30 24 25.2
00003  -1   1019   1024   1025
C     4  2036  2036   13 31 57.45   30 24 25.2
00004  -1   1019   1024   1025
C     5  2036  2036   13 30 19.02   30 36 39.6
00005  -1   1019   1024   1025
C     6  2036  2036   13 31 57.55   30 36 39.6
00006  -1   1019   1024   1025
C     7  2036  2036   13 31 08.29   30 42 47.4
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SETFC FILE FOR SOURCE 1831-126 BELOW IS:
C     1  2036  2036   18 34 19.22  -12 37 40.9
00001  -1   1019   1024   1025
C     2  2036  2036   18 34 19.22  -12 49 29.3
00002  -1   1019   1024   1025
C     3  2036  2036   18 33 37.29  -12 43 34.9
00003  -1   1019   1024   1025
C     4  2036  2036   18 35 01.15  -12 43 34.9
00004  -1   1019   1024   1025
C     5  2036  2036   18 33 37.32  -12 31 46.5
00005  -1   1019   1024   1025
C     6  2036  2036   18 35 01.11  -12 31 46.5
00006  -1   1019   1024   1025
C     7  2036  2036   18 34 19.22  -12 25 52.5
00007  -1   1019   1024   1025
SETFC FILE FOR SOURCE NGC6712 BELOW IS:
C     1  2036  2036   18 53 04.99  -08 42 20.1
00001  -1   1019   1024   1025
C     2  2036  2036   18 53 04.99  -08 54 35.3
00002  -1   1019   1024   1025
C     3  2036  2036   18 52 22.04  -08 48 27.6
00003  -1   1019   1024   1025
C     4  2036  2036   18 53 47.95  -08 48 27.6
00004  -1   1019   1024   1025
C     5  2036  2036   18 52 22.07  -08 36 12.4
00005  -1   1019   1024   1025
C     6  2036  2036   18 53 47.92  -08 36 12.4
00006  -1   1019   1024   1025
C     7  2036  2036   18 53 04.99  -08 30 04.9
00007  -1   1019   1024   1025
SETFC FILE FOR SOURCE 2136+141 BELOW IS:
C     1  2036  2036   21 39 01.31   14 23 36.0
00001  -1   1019   1024   1025
C     2  2036  2036   21 39 01.31   14 07 40.2
00002  -1   1019   1024   1025
C     3  2036  2036   21 38 04.37   14 15 37.7
00003  -1   1019   1024   1025
C     4  2036  2036   21 39 58.24   14 15 37.7
00004  -1   1019   1024   1025
C     5  2036  2036   21 38 04.31   14 31 33.4
00005  -1   1019   1024   1025
C     6  2036  2036   21 39 58.31   14 31 33.4
00006  -1   1019   1024   1025
C     7  2036  2036   21 39 01.31   14 39 31.8
00007  -1   1019   1024   1025
C     8   246   246   21 38 19.22   14 35 52.4
00008  -1    100    128    129
SETFC FILE FOR SOURCE NGC7078 BELOW IS:
C     1  2036  2036   21 29 58.13   12 10 02.7
00001  -1   1019   1024   1025
C     2  2036  2036   21 29 58.13   11 54 43.1
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C     3  2036  2036   21 29 03.85   12 02 22.6
00003  -1   1019   1024   1025
C     4  2036  2036   21 30 52.42   12 02 22.6
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C     5  2036  2036   21 29 03.79   12 17 42.2
00005  -1   1019   1024   1025
C     6  2036  2036   21 30 52.47   12 17 42.2
00006  -1   1019   1024   1025
C     7  2036  2036   21 29 58.13   12 25 22.3
00007  -1   1019   1024   1025
C     8   246   246   21 30 04.15   11 50 44.1
00008  -1    100    128    129
Pops  Prior    Date        Time       Task          Messages for user19800
   3    0   28-FEB-2009  03:15:37     AIPS      version'ABIN'
   3    0   28-FEB-2009  03:15:37     AIPS      run avlaprep
   3    2   28-FEB-2009  03:15:37     AIPS      Found in Version=ABIN
   3    2   28-FEB-2009  03:15:37     AIPS      $ Lorant Sjouwerman, versions 1.. 2005, for NRAO
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      $$ General naming utilities - default to data disk 1 (safest of all)
   3    2   28-FEB-2009  03:15:37     AIPS      procedure pipedef1
   3    2   28-FEB-2009  03:15:37     AIPS        string*12 pnam
   3    2   28-FEB-2009  03:15:37     AIPS        string*6 pcls
   3    2   28-FEB-2009  03:15:37     AIPS        scalar pseq,pdsk
   3    2   28-FEB-2009  03:15:37     AIPS        pdsk=1
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS      pipedef1
   3    2   28-FEB-2009  03:15:37     AIPS      procedure namepipe
   3    2   28-FEB-2009  03:15:37     AIPS        pnam=inname;pcls=inclass;pseq=inseq;indisk=pdsk
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS      procedure pipename
   3    2   28-FEB-2009  03:15:37     AIPS        inname=pnam;inclass=pcls;inseq=pseq;indisk=pdsk
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure checkcat
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - count and make sure catalog starts at one (and not more than 10 files)
   3    2   28-FEB-2009  03:15:37     AIPS        scalar numcat
   3    2   28-FEB-2009  03:15:37     AIPS        clrname;indisk=pdsk;chkname;numcat=1-error
   3    2   28-FEB-2009  03:15:37     AIPS      $ for later: find out how to deal with CH0/LINE data in MOVE
   3    2   28-FEB-2009  03:15:37     AIPS        if(numcat>0)then;recat;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        return numcat
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure gx
   3    2   28-FEB-2009  03:15:37     AIPS      $  inputs
   3    2   28-FEB-2009  03:15:37     AIPS        go;wait
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure pre_fillm
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - sets VLA archive defaults for fillm
   3    2   28-FEB-2009  03:15:37     AIPS        default fillm;outdisk=pdsk;doall=1;douvcomp=-1;cparm(8)=0.05;bparm(10)=0.75
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure fname
   3    2   28-FEB-2009  03:15:37     AIPS        return inname!!'.'!!inclass!!'.'!!char(inseq)
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure shortname
   3    2   28-FEB-2009  03:15:37     AIPS      scalar idx,nsrc,ll,ii,spc
   3    2   28-FEB-2009  03:15:37     AIPS      string*12 newstrng
   3    2   28-FEB-2009  03:15:37     AIPS      keyword'NUM ROW';inext'SU';getthead;nsrc=keyvalue(1);keyword'';keyvalue 0
   3    2   28-FEB-2009  03:15:37     AIPS      for idx=1:nsrc;pixxy=idx,2,1;tabget;ll=length(keystrng);newstrng''
   3    2   28-FEB-2009  03:15:37     AIPS        if(ll>12)then;spc=0;ll=1
   3    2   28-FEB-2009  03:15:37     AIPS          while(spc=0&ll<17);substr(newstrng,ll,ll)=substr(keystrng,ll,ll)
   3    2   28-FEB-2009  03:15:37     AIPS            if(substr(keystrng,ll,ll+1)='  ')then
   3    2   28-FEB-2009  03:15:37     AIPS              if(spc=0)then;spc=1;substr(newstrng,ll,ll)='@';end
   3    2   28-FEB-2009  03:15:37     AIPS          end;ll=ll+1;clrtemp;end;ii=ll
   3    2   28-FEB-2009  03:15:37     AIPS          while(ll<17)
   3    2   28-FEB-2009  03:15:37     AIPS            if(substr(keystrng,ll,ll)<>' ')then
   3    2   28-FEB-2009  03:15:37     AIPS              substr(newstrng,ii,ii)=substr(keystrng,ll,ll);ii=ii+1
   3    2   28-FEB-2009  03:15:37     AIPS            end;ll=ll+1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          end;ll=length(newstrng);nsrc=min(12,ll) $ for safety during tests
   3    2   28-FEB-2009  03:15:37     AIPS          if(ll>12)then;keystrng=newstrng;ll=ll+1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            for ii=1:nsrc;substr(newstrng,ii,ii)=substr(keystrng,ll-ii,ll-ii);end
   3    2   28-FEB-2009  03:15:37     AIPS          end;task'TABED';clroname;inext'SU';optype'REPL';keyword'';keyvalue 0
   3    2   28-FEB-2009  03:15:37     AIPS      aparm 2 1;bcount=idx;ecount=idx;keystrng=newstrng;go;wait;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure del
   3    2   28-FEB-2009  03:15:37     AIPS        error=1;zap
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure numants
   3    2   28-FEB-2009  03:15:37     AIPS        scalar numarow,numbout,numbant,numbase,idx;string*16 nameant
   3    2   28-FEB-2009  03:15:37     AIPS        numbout=0;keyword'NUM ROW';inext'AN';invers=0;getthead;numarow=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS        for numbant=1:numarow
   3    2   28-FEB-2009  03:15:37     AIPS          pixxy=numbant,1,0;tabget;nameant=keystrng;idx=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          while(substr(nameant,idx,idx)<>':');idx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(nameant,idx+1,idx+3)='OUT')then;numbout=numbout+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(nameant,idx+2,idx+4)='OUT')then;numbout=numbout+1;end
   3    2   28-FEB-2009  03:15:37     AIPS        end;numbase=(numarow-numbout);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      $  type char(numarow-numbout)!!' ANTENNAS',char(numbase)!!' BASELINES'
   3    2   28-FEB-2009  03:15:37     AIPS        return numbase
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure skipdata
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - delete unwanted data sets - currently all but continuum X and C bands
   3    2   28-FEB-2009  03:15:37     AIPS      $  if(inclass='LINE')then;del;inclass'CH 0';del;type'ZAP LINE :'fname;end
   3    2   28-FEB-2009  03:15:37     AIPS        if((inclass='CH 0')!(inclass='LINE'))then;del;type'ZAP LINE :'fname;end
   3    2   28-FEB-2009  03:15:37     AIPS        if(inclass='4 BAND')then;del;type'ZAP 4-BAND :'fname;end
   3    2   28-FEB-2009  03:15:37     AIPS        if(inclass='P BAND')then;del;type'ZAP P-BAND :'fname;end
   3    2   28-FEB-2009  03:15:37     AIPS      $  if(inclass='L BAND')then;del;type'ZAP L-BAND :'fname;end
   3    2   28-FEB-2009  03:15:37     AIPS      $  if(inclass='U BAND')then;del;type'ZAP U-BAND :'fname;end
   3    2   28-FEB-2009  03:15:37     AIPS      $  if(inclass='K BAND')then;del;type'ZAP K-BAND :'fname;end
   3    2   28-FEB-2009  03:15:37     AIPS      $  if(inclass='Q BAND')then;del;type'ZAP Q-BAND :'fname;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if(error<1)then $ file not zapped, check for single dish vlbi; #vis=0
   3    2   28-FEB-2009  03:15:37     AIPS          task'TABGET';userid 0;inext'NX';invers=0;keyvalue=0;keystrng''
   3    2   28-FEB-2009  03:15:37     AIPS          keyword'NUM ROW';getthead;pixxy=keyvalue(1),6,0;tabget;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if(keyvalue(1)=0)then;del;type'ZAP S-DISH :'fname;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(error<1)then;idx=numants $ file not zapped, check for # ants (<9)
   3    2   28-FEB-2009  03:15:37     AIPS            if(idx<9)then;del;type'ZAP MINI-ARRAY ('!!char(idx)!!') :'!!fname
   3    2   28-FEB-2009  03:15:37     AIPS        end;clrtemp;end;end
   3    2   28-FEB-2009  03:15:37     AIPS      $also zap if solar/planetary/pulsar mode - su table proper motion??
   3    2   28-FEB-2009  03:15:37     AIPS      $ and what about PT-link?  antenna VPT is not OUT, later also EVLA names
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure checkids
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - account for fast switching source names - check on pos, qual, calco
   3    2   28-FEB-2009  03:15:37     AIPS        scalar ra1a,ra1b,ra2a,ra2b,dc1a,dc1b,dc2a,dc2b,n,m,l,idx
   3    2   28-FEB-2009  03:15:37     AIPS        scalar q1,q2,k,x,y1,y2
   3    2   28-FEB-2009  03:15:37     AIPS        string*1 co1,co2
   3    2   28-FEB-2009  03:15:37     AIPS        string*16 n1,n2
   3    2   28-FEB-2009  03:15:37     AIPS        array alist(100),blist(100)
   3    2   28-FEB-2009  03:15:37     AIPS        inext'SU';invers 0;keyword'NUM ROW';keyvalue 0;keystrng'';getthead
   3    2   28-FEB-2009  03:15:37     AIPS        n=keyvalue(1);idx=1;aparm 0;bparm 0;alist 0;blist 0
   3    2   28-FEB-2009  03:15:37     AIPS        if (n > 1) then
   3    2   28-FEB-2009  03:15:37     AIPS          for m=1:(n-1);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy m,11;inext'SU';tabget;ra1a keyvalue(1);ra1b keyvalue(2)
   3    2   28-FEB-2009  03:15:37     AIPS            for l=(m+1):n;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS              pixxy l,11;tabget;ra2a keyvalue(1);ra2b keyvalue(2)
   3    2   28-FEB-2009  03:15:37     AIPS              if (abs(ra1a-ra2a)=0) then
   3    2   28-FEB-2009  03:15:37     AIPS                if ( abs((ra1b-ra2b)*3600*1000) < 3 ) then $ RA within 3 mas!
   3    2   28-FEB-2009  03:15:37     AIPS                  pixxy m,12;tabget;dc1a keyvalue(1);dc1b keyvalue(2)
   3    2   28-FEB-2009  03:15:37     AIPS                  pixxy l,12;tabget;dc2a keyvalue(1);dc2b keyvalue(2)
   3    2   28-FEB-2009  03:15:37     AIPS                  if (abs(dc1a-dc2a)=0) then
   3    2   28-FEB-2009  03:15:37     AIPS                    if ( abs((dc1b-dc2b)*3600*1000) < 3 ) then $ DC within 3 mas!
   3    2   28-FEB-2009  03:15:37     AIPS                      pixxy m,3;tabget;q1 keyvalue(1);pixxy l,3;tabget;q2 keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS      $if one has zero vis then next checks not needed and declare/fix same source
   3    2   28-FEB-2009  03:15:37     AIPS                      inext'NX';keyword'NUM ROW';getthead;k=keyvalue(1);y1=0;y2=0
   3    2   28-FEB-2009  03:15:37     AIPS                      for x=1:k;pixxy x,3;tabget
   3    2   28-FEB-2009  03:15:37     AIPS                        if(keyval(1)=m)then;y1=y1+1;else;
   3    2   28-FEB-2009  03:15:37     AIPS                        if(keyval(1)=l)then;y2=y2+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS                      end $ if ((y1=0)!(y2=0)) then one has 0 visibilities: do dsorc
   3    2   28-FEB-2009  03:15:37     AIPS                      if (q1=q2)!((y1=0)!(y2=0)) then ;inext'SU' $ same calcode?
   3    2   28-FEB-2009  03:15:37     AIPS                        pixxy m,4;tabget;co1 keystrng;pixxy l,4;tabget;co2 keystrng
   3    2   28-FEB-2009  03:15:37     AIPS                        if (co1=co2)!((y1=0)!(y2=0)) then
   3    2   28-FEB-2009  03:15:37     AIPS                          pixxy m,1;tabget;q1 keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS                          pixxy l,1;tabget;q2 keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS                          pixxy m,2;tabget;n1 keystrng;pixxy l,2;tabget;n2 keystrng
   3    2   28-FEB-2009  03:15:37     AIPS                          if (idx>100) then;
   3    2   28-FEB-2009  03:15:37     AIPS                            type 'TOO MANY SOURCES TO DO DSORC - DO BY HAND!'
   3    2   28-FEB-2009  03:15:37     AIPS                           type 'NEXT =.'!!char(idx)!!' DO:'!!char(l)!!'.&.'!!char(m)
   3    2   28-FEB-2009  03:15:37     AIPS                          else
   3    2   28-FEB-2009  03:15:37     AIPS                            if (length(n1)<length(n2)) then $ keep shortest name
   3    2   28-FEB-2009  03:15:37     AIPS                              alist(idx) q2;blist(idx) q1
   3    2   28-FEB-2009  03:15:37     AIPS                            else;alist(idx) q1;blist(idx) q2
   3    2   28-FEB-2009  03:15:37     AIPS          end;end;idx=idx+1;end;end;end;end;end;end;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if (idx>1) then;task'DSORC';n=0
   3    2   28-FEB-2009  03:15:37     AIPS            outname inname;outclass inclass;outseq inseq;outdisk indisk
   3    2   28-FEB-2009  03:15:37     AIPS            while (n<idx)
   3    2   28-FEB-2009  03:15:37     AIPS             for l=1:10;aparm(l)=alist(l+n);bparm(l)=blist(l+n);end;gx;n=n+10;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          end;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(idx>100)then;type'TOO MANY SOURCES FOR DSORC';error 1;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure checkcal
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS   Currently (Sep 22, 2005) can/will do 3C286 and 3C48 at X and C
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS   (and for now skip 3C286/3C48/3C138/3C147 Q,K,U and 3C48 L)
   3    2   28-FEB-2009  03:15:37     AIPS        scalar idx,jdx
   3    2   28-FEB-2009  03:15:37     AIPS        string*16 sname
   3    2   28-FEB-2009  03:15:37     AIPS        task'TABGET';userid 0;inext'SU';invers=0;keyvalue=0;keystrng'';error=1
   3    2   28-FEB-2009  03:15:37     AIPS        keyword'NUM ROW';getthead;idx=keyvalue(1);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        for jdx=1:idx
   3    2   28-FEB-2009  03:15:37     AIPS          pixxy=jdx,2,0;tabget;sname=substr(keystrng,1,length(keystrng))
   3    2   28-FEB-2009  03:15:37     AIPS          if(sname='3C286')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(sname='3C48')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(sname='3C138')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(sname='3C147')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(sname='3C295')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(error>0)then $ try B1950 name
   3    2   28-FEB-2009  03:15:37     AIPS            if(sname='1328+307')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS            if(sname='0134+329')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS            if(sname='0518+165')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS            if(sname='0538+498')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS            if(sname='1409+524')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS            if(error>0)then $ try J2000
   3    2   28-FEB-2009  03:15:37     AIPS              if(sname='1331+305')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS              if(sname='0137+331')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS              if(sname='0521+166')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS              if(sname='0542+498')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS              if(sname='1411+522')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS              if(error>0)then $ try J2000 name
   3    2   28-FEB-2009  03:15:37     AIPS                if(sname='J1331+3030')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS                if(sname='J0137+3309')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS                if(sname='J0521+1638')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS                if(sname='J0542+4951')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS                if(sname='J1411+5212')then;error=-1;jdx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          end;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS      $ if error>0 check on coords (for different name than standard)
   3    2   28-FEB-2009  03:15:37     AIPS      $ but keyval not reliable to do this.. ??
   3    2   28-FEB-2009  03:15:37     AIPS      $ end
   3    2   28-FEB-2009  03:15:37     AIPS        if(error>0)then;del;type'ZAP - NO STD CAL SRC FOR :'fname;error=1
   3    2   28-FEB-2009  03:15:37     AIPS        else;checkids;error=-1;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure j2000fix
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - convert data to J2000 by default use of uvfix
   3    2   28-FEB-2009  03:15:37     AIPS        task'UVFIX';outname=inname;outclass=inclass;outseq=inseq;outdisk=indisk
   3    2   28-FEB-2009  03:15:37     AIPS        shift=0;uvfixprm=0;tput uvfix;outclass'PREFIX';rename;default tabget
   3    2   28-FEB-2009  03:15:37     AIPS        tget uvfix;task'TABGET';inclass'PREFIX';inext'SU';pixxy 1,13,1;tabget
   3    2   28-FEB-2009  03:15:37     AIPS        if (keyvalue(1)<1) then; tput tabget;default tabed;tget tabget
   3    2   28-FEB-2009  03:15:37     AIPS          task'TABED';optype'REPL';aparm 13,0,0,2;keyvalue 1950.0 0;gx;end
   3    2   28-FEB-2009  03:15:37     AIPS        tget uvfix;inclass'PREFIX';gx;zap;inclass=outclass;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure addcalco
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - check for a calcode and add them if non-existent
   3    2   28-FEB-2009  03:15:37     AIPS        scalar maxcat,maxrow,hasacode,m2d,fnd,ii,jj,kk
   3    2   28-FEB-2009  03:15:37     AIPS        task'TABGET';inext'SU';keyword'NUM ROW';getthead
   3    2   28-FEB-2009  03:15:37     AIPS        maxrow=keyvalue(1);hasacode=0;jj=0
   3    2   28-FEB-2009  03:15:37     AIPS        while((jj<maxrow)&(hasacode=0));jj=jj+1;pixxy=jj,4;tabget
   3    2   28-FEB-2009  03:15:37     AIPS          if(keystrng<>' ')then;hasacode=1;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if(hasacode=0)then;fnd=0;type 'SEARCHING SOURCES TO ADD CALIBRATOR CODES'
   3    2   28-FEB-2009  03:15:37     AIPS      $ go through SU and check against calibrator list
   3    2   28-FEB-2009  03:15:37     AIPS      $ maybe do this anyway for all sources and not skip if one (above) found
   3    2   28-FEB-2009  03:15:37     AIPS          for jj=1:maxrow;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy=jj,2;tabget;error=0;syscom'grep -i
   3    2   28-FEB-2009  03:15:37     AIPS            if(keystrng='J0137+3309')then;keystrng'0137+331';end
   3    2   28-FEB-2009  03:15:37     AIPS            if(keystrng='J0521+1638')then;keystrng'0521+166';end
   3    2   28-FEB-2009  03:15:37     AIPS            if(keystrng='J0542+4951')then;keystrng'0542+498';end
   3    2   28-FEB-2009  03:15:37     AIPS            if(keystrng='J1331+3030')then;keystrng'1331+305';end
   3    2   28-FEB-2009  03:15:37     AIPS            if(keystrng='J1411+5212')then;keystrng'1411+522';end
   3    2   28-FEB-2009  03:15:37     AIPS            if((substr(keystrng,1,1)='J')&(substr(keystrng,2,2)<>'U'))then
   3    2   28-FEB-2009  03:15:37     AIPS              m2d=floor(value(substr(keystrng,9,10))/6);keystrng=substr(keystrng,2,8)
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(1)'X'!!keystrng!!char(m2d);else;sys2com(1)'X'!!keystrng
   3    2   28-FEB-2009  03:15:37     AIPS            end;clrtemp;kk=1;ii=length(keystrng) $ safeguard against spaces in name
   3    2   28-FEB-2009  03:15:37     AIPS            while((kk<=ii)&(substr(keystrng,kk,kk)<>''));kk=kk+1;end;m2d=kk+1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            if(m2d>1)then;for kk=m2d:ii;substr(keystrng,kk,kk)=' ';end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(2)'X'!!'/users/lsjouwer/calvlaobs/csource.mas
   3    2   28-FEB-2009  03:15:37     AIPS              keyvalue=0;substr(sys2com(1),1,1)'';substr(sys2com(2),1,1)'';clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          system;keystrng'Y';if(error=-1)then;fnd=fnd+1;pixxy=jj,4;tabput;end;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(fnd>0)then;type char(fnd)!!' CALCODES ADDED' $ ZAP if no code found
   3    2   28-FEB-2009  03:15:37     AIPS        else;type'ERROR: PIPELINE WILL FAIL TO COMPLETE (NO CALS)';zap;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure datachks
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - delete unwanted data sets, check for standard calibrators and make J2000
   3    2   28-FEB-2009  03:15:37     AIPS        if(error<1)then  $ file exists
   3    2   28-FEB-2009  03:15:37     AIPS          skipdata;if(error<1)then  $ file was not zapped
   3    2   28-FEB-2009  03:15:37     AIPS            checkcal;if(error<1)then  $ file has standard calibrator in it
   3    2   28-FEB-2009  03:15:37     AIPS              addcalco
   3    2   28-FEB-2009  03:15:37     AIPS              shortname
   3    2   28-FEB-2009  03:15:37     AIPS              j2000fix
   3    2   28-FEB-2009  03:15:37     AIPS        end;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure freqchks
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - split up in frequency IDs, run INDXR, and remove
   3    2   28-FEB-2009  03:15:37     AIPS        scalar rows, nfrq
   3    2   28-FEB-2009  03:15:37     AIPS        if(error<1)then  $ file exists
   3    2   28-FEB-2009  03:15:37     AIPS          inext'FQ';invers=1;keyword='NUM ROW';getthead;nfrq=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS          if (nfrq > 1) then
   3    2   28-FEB-2009  03:15:37     AIPS            if (nfrq > 9) then;type' WARNING! MORE THAN 9 FREQUENCY ID-S!';end
   3    2   28-FEB-2009  03:15:37     AIPS            tput getthead;default'UVCOP';tget getthead;keyword='';task'UVCOP';tput
   3    2   28-FEB-2009  03:15:37     AIPS            for rows=1:nfrq
   3    2   28-FEB-2009  03:15:37     AIPS              pixxy=rows,1,1;inver=1;inext='FQ';tabget;tget;freqid=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS              outclass=substr(inclass,1,1)!!substr(inclass,3,6)!!char(freqid)
   3    2   28-FEB-2009  03:15:37     AIPS              type'COPYING FREQUENCY ID #'!!char(freqid);gx
   3    2   28-FEB-2009  03:15:37     AIPS              default'INDXR';tget uvcop;task'INDXR';inclass outclass;gx;task'DQUAL'
   3    2   28-FEB-2009  03:15:37     AIPS      $out not in! ** outname=inname;outclass=inclass;outseq=inseq;outdisk=indisk;gx
   3    2   28-FEB-2009  03:15:37     AIPS              tget uvcop;freqid=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        end;end;end;if(nfrq>1)then;type fname!!' SPLIT IN :'!!char(nfrq);zap;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure pre_move
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - moves file to another AIPS user number
   3    2   28-FEB-2009  03:15:37     AIPS        default move;indisk=pdsk;outseq=-1;opcode'MOVE';clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure expid
   3    2   28-FEB-2009  03:15:37     AIPS        string*20 expnm
   3    2   28-FEB-2009  03:15:37     AIPS        string*75 expmsg
   3    2   28-FEB-2009  03:15:37     AIPS        return expnm
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS      type expid
   3    5   28-FEB-2009  03:15:37     AIPS      ' '
   3    0   28-FEB-2009  03:15:37     AIPS      run avlapipe
   3    2   28-FEB-2009  03:15:37     AIPS      Found in Version=ABIN
   3    2   28-FEB-2009  03:15:37     AIPS      $
   3    2   28-FEB-2009  03:15:37     AIPS      $ Ver 1.0 : Copy of private Ver 3.0 of VLARUN (public version is 2.5):
   3    2   28-FEB-2009  03:15:37     AIPS      $ was 3.0 : Add PLVER (in goplt) for plot files and to include TASAV (12MAY04)
   3    2   28-FEB-2009  03:15:37     AIPS      $           Repositioned inseq=0 to safeguard to SU-tab confusion (12NOV04)
   3    2   28-FEB-2009  03:15:37     AIPS      $           Rearanged inputs and options, added integration time calculation,
   3    2   28-FEB-2009  03:15:37     AIPS      $           QUACK, selective plotting, INNAME vs DOCAT, alternative flux cal,
   3    2   28-FEB-2009  03:15:37     AIPS      $           selective imaging, SCIMG for targets, use model in CALIB, find VLA
   3    2   28-FEB-2009  03:15:37     AIPS      $           array, use model,..
   3    2   28-FEB-2009  03:15:37     AIPS      $
   3    2   28-FEB-2009  03:15:37     AIPS      $Next vers add        polarization calibration, SCIMG->SCIMG?
   3    2   28-FEB-2009  03:15:37     AIPS      $                     find imsize, find cutoffflux, include infile
   3    2   28-FEB-2009  03:15:37     AIPS      $---------------------------------------------------------------
   3    2   28-FEB-2009  03:15:37     AIPS      $0000000011111111112222222222333333333344444444445555555555666666666677777777778
   3    2   28-FEB-2009  03:15:37     AIPS      $2345678901234567890123456789012345678901234567890123456789012345678901234567890
   3    2   28-FEB-2009  03:15:37     AIPS      $===============================================
   3    2   28-FEB-2009  03:15:37     AIPS      $! Calibrating amplitude and phase, and imaging VLA data
   3    2   28-FEB-2009  03:15:37     AIPS      $# RUN POPS VLA UTILITY CALIBRATION IMAGING
   3    2   28-FEB-2009  03:15:37     AIPS      $---------------------------------------------------------------
   3    2   28-FEB-2009  03:15:37     AIPS      $;  Copyright (C) 2002-2006
   3    2   28-FEB-2009  03:15:37     AIPS      $;  Associated Universities, Inc. Washington DC, USA.
   3    2   28-FEB-2009  03:15:37     AIPS      $;
   3    2   28-FEB-2009  03:15:37     AIPS      $;  This program is free software; you can redistribute it and/or
   3    2   28-FEB-2009  03:15:37     AIPS      $;  modify it under the terms of the GNU General Public License as
   3    2   28-FEB-2009  03:15:37     AIPS      $;  published by the Free Software Foundation; either version 2 of
   3    2   28-FEB-2009  03:15:37     AIPS      $;  the License, or (at your option) any later version.
   3    2   28-FEB-2009  03:15:37     AIPS      $;
   3    2   28-FEB-2009  03:15:37     AIPS      $;  This program is distributed in the hope that it will be useful,
   3    2   28-FEB-2009  03:15:37     AIPS      $;  but WITHOUT ANY WARRANTY; without even the implied warranty of
   3    2   28-FEB-2009  03:15:37     AIPS      $;  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   3    2   28-FEB-2009  03:15:37     AIPS      $;  GNU General Public License for more details.
   3    2   28-FEB-2009  03:15:37     AIPS      $;
   3    2   28-FEB-2009  03:15:37     AIPS      $;  You should have received a copy of the GNU General Public
   3    2   28-FEB-2009  03:15:37     AIPS      $;  License along with this program; if not, write to the Free
   3    2   28-FEB-2009  03:15:37     AIPS      $;  Software Foundation, Inc., 675 Massachusetts Ave, Cambridge,
   3    2   28-FEB-2009  03:15:37     AIPS      $;  MA 02139, USA.
   3    2   28-FEB-2009  03:15:37     AIPS      $;
   3    2   28-FEB-2009  03:15:37     AIPS      $;  Correspondence concerning AIPS should be addressed as follows:
   3    2   28-FEB-2009  03:15:37     AIPS      $;         Internet email: aipsmail@nrao.edu.
   3    2   28-FEB-2009  03:15:37     AIPS      $;         Postal address: AIPS Project Office
   3    2   28-FEB-2009  03:15:37     AIPS      $;                         National Radio Astronomy Observatory
   3    2   28-FEB-2009  03:15:37     AIPS      $;                         520 Edgemont Road
   3    2   28-FEB-2009  03:15:37     AIPS      $;                         Charlottesville, VA 22903-2475 USA
   3    2   28-FEB-2009  03:15:37     AIPS      $---------------------------------------------------------------
   3    2   28-FEB-2009  03:15:37     AIPS      $===============================================================
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure pipeinit
   3    2   28-FEB-2009  03:15:37     AIPS        scalar lsdisk,lsname,lsrant,lscont,lserr,lsplot,lsflag,k,lsflux,lstarg,lsmodl
   3    2   28-FEB-2009  03:15:37     AIPS        scalar lsids,star,tint,fsw,kj
   3    2   28-FEB-2009  03:15:37     AIPS        string*2 lstyp
   3    2   28-FEB-2009  03:15:37     AIPS        string*3 lsvla
   3    2   28-FEB-2009  03:15:37     AIPS        string*6 lsidc,lsstrng
   3    2   28-FEB-2009  03:15:37     AIPS        string*16 lsidn,lscal,lsobj
   3    2   28-FEB-2009  03:15:37     AIPS        string*16 lsampcal(20),lsbndcal(5),lsphacal(20),lspntcal(25),lsallcal(30),
   3    2   28-FEB-2009  03:15:37     AIPS        array lsbadd(10),lsparm(16),lssid(1000) $ D=1,C=3.3,B=10.8,A=35.4,PT=73
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS      pipeinit
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure shortname
   3    2   28-FEB-2009  03:15:37     AIPS      scalar idx,nsrc,ll,ii,spc
   3    2   28-FEB-2009  03:15:37     AIPS      string*12 newstrng
   3    2   28-FEB-2009  03:15:37     AIPS      keyword'NUM ROW';inext'SU';getthead;nsrc=keyvalue(1);keyword'';keyvalue 0
   3    2   28-FEB-2009  03:15:37     AIPS      for idx=1:nsrc;pixxy=idx,2,1;tabget;ll=length(keystrng);newstrng''
   3    2   28-FEB-2009  03:15:37     AIPS        if(ll>12)then;spc=0;ll=1
   3    2   28-FEB-2009  03:15:37     AIPS          while(spc=0&ll<17);substr(newstrng,ll,ll)=substr(keystrng,ll,ll)
   3    2   28-FEB-2009  03:15:37     AIPS            if(substr(keystrng,ll,ll+1)='  ')then
   3    2   28-FEB-2009  03:15:37     AIPS              if(spc=0)then;spc=1;substr(newstrng,ll,ll)='@';end
   3    2   28-FEB-2009  03:15:37     AIPS          end;ll=ll+1;clrtemp;end;ii=ll
   3    2   28-FEB-2009  03:15:37     AIPS          while(ll<17)
   3    2   28-FEB-2009  03:15:37     AIPS            if(substr(keystrng,ll,ll)<>' ')then
   3    2   28-FEB-2009  03:15:37     AIPS              substr(newstrng,ii,ii)=substr(keystrng,ll,ll);ii=ii+1
   3    2   28-FEB-2009  03:15:37     AIPS            end;ll=ll+1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          end;ll=length(newstrng);nsrc=min(12,ll) $ for safety during tests
   3    2   28-FEB-2009  03:15:37     AIPS          if(ll>12)then;keystrng=newstrng;ll=ll+1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            for ii=1:nsrc;substr(newstrng,ii,ii)=substr(keystrng,ll-ii,ll-ii);end
   3    2   28-FEB-2009  03:15:37     AIPS          end;task'TABED';clroname;inext'SU';optype'REPL';keyword'';keyvalue 0
   3    2   28-FEB-2009  03:15:37     AIPS      aparm 2 1;bcount=idx;ecount=idx;keystrng=newstrng;go;wait;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure longname
   3    2   28-FEB-2009  03:15:37     AIPS      scalar idx,nsrc,ii
   3    2   28-FEB-2009  03:15:37     AIPS      keyword'NUM ROW';inext'SU';getthead;nsrc=keyvalue(1);keyword'';keyvalue 0;ii=0
   3    2   28-FEB-2009  03:15:37     AIPS      for idx=1:nsrc;pixxy=idx,2,1;tabget;if(length(keystrng)>12)then;ii=ii+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS      if(ii>0)then;lserr=9
   3    2   28-FEB-2009  03:15:37     AIPS        type'!';type'! WARNING: SOURCE NAMES TOO LONG: VLARUN WILL NOT RUN PROPERLY'
   3    2   28-FEB-2009  03:15:37     AIPS        type'!';type'! - if this is planetary data, rerun FILLM with CPARM(2) >= 16
   3    2   28-FEB-2009  03:15:37     AIPS        type'! - if this is a mozaic, rename the fields with the same field
   3    2   28-FEB-2009  03:15:37     AIPS        type'!   names in the SU-table to something unique <= 12 characters
   3    2   28-FEB-2009  03:15:37     AIPS        type'!   in TABED or use the predefined procedure shortname on the
   3    2   28-FEB-2009  03:15:37     AIPS        type'!   catalog data (remember to do it on both CH0 and LINE if it
   3    2   28-FEB-2009  03:15:37     AIPS        type'!   is line data)
   3    2   28-FEB-2009  03:15:37     AIPS        type'! - if you just have long source names, make them short in the
   3    2   28-FEB-2009  03:15:37     AIPS        type'!   SU-table (<=12 char) and unique using TABED or "shortname"
   3    2   28-FEB-2009  03:15:37     AIPS        type'!';type'! --- EXITING VLARUN so you can fix this first ---
   3    2   28-FEB-2009  03:15:37     AIPS        type'!     ('!!char(ii)!!' sources need to be fixed in the SU-table)
   3    2   28-FEB-2009  03:15:37     AIPS      type'!';end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure pipeinpt
   3    2   28-FEB-2009  03:15:37     AIPS        lsampcal     '3C48', '0134+329','0137+331','J0137+3309'
   3    2   28-FEB-2009  03:15:37     AIPS        lsampcal(5)~ '3C138','0518+165','0521+166','J0521+1638'
   3    2   28-FEB-2009  03:15:37     AIPS        lsampcal(9)~ '3C147','0538+498','0542+498','J0542+4951'
   3    2   28-FEB-2009  03:15:37     AIPS        lsampcal(13)~'3C286','1328+307','1331+305','J1331+3030'
   3    2   28-FEB-2009  03:15:37     AIPS        lsampcal(17)~'3C295','1409+524','1411+522','J1411+5212'
   3    2   28-FEB-2009  03:15:37     AIPS        lserr=0;lsbadd=baddisk;lsdisk=indisk;lsname=docat
   3    2   28-FEB-2009  03:15:37     AIPS        lsidn=inname;lsidc=inclass;lsids=inseq;lstyp'UV';fsw=doalign;lsflag=flagver
   3    2   28-FEB-2009  03:15:37     AIPS        lsparm(2)=solint;lsparm(13)=factor;lsrant=refant;lsmodl=domodel
   3    2   28-FEB-2009  03:15:37     AIPS        lscal=keystrng;lsflux=flux;lsparm(3)=uvrange(1);lsparm(4)=uvrange(2)
   3    2   28-FEB-2009  03:15:37     AIPS        for k=1:20;lsphacal(k)=sources(k);end;for k=1:5;lsbndcal(k)=calsour(k);end
   3    2   28-FEB-2009  03:15:37     AIPS        lsparm(11)=dopol;lsparm(12)=bpa;lscont=docont;lsplot=plver;lsparm(1)=doall
   3    2   28-FEB-2009  03:15:37     AIPS        lsparm(5)=doarray;lsparm(6)=imsize(1);lsparm(7)=niter;lsparm(8)=cutoff
   3    2   28-FEB-2009  03:15:37     AIPS        lsparm(9)=docal;lsparm(10)=doresid
   3    2   28-FEB-2009  03:15:37     AIPS      $ check input values
   3    2   28-FEB-2009  03:15:37     AIPS      $->lsbadd
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsdisk<=0) then;lserr=1;type'SPECIFY THE INDISK';end
   3    2   28-FEB-2009  03:15:37     AIPS        if(lsname<=0)then;inname=lsidn;inclass=lsidc;inseq=lsids;intype=lstyp;chkname
   3    2   28-FEB-2009  03:15:37     AIPS          if (error<>0) then
   3    2   28-FEB-2009  03:15:37     AIPS            lserr=2; type 'SPECIFY INNAME, ETC, OR THE CATALOG NUMBER = DOCAT'
   3    2   28-FEB-2009  03:15:37     AIPS          else
   3    2   28-FEB-2009  03:15:37     AIPS            userid=0;k=1;lsname=0
   3    2   28-FEB-2009  03:15:37     AIPS            while (lsname=0);egetname k
   3    2   28-FEB-2009  03:15:37     AIPS              if (( (lsidn=inname)&(lsidc=inclass) )&(lsids=inseq)) then
   3    2   28-FEB-2009  03:15:37     AIPS                lsname=k;lsidn=inname;lsidc=inclass;lsids=inseq;lstyp=intype
   3    2   28-FEB-2009  03:15:37     AIPS        else;k=k+1;end;end;end;else
   3    2   28-FEB-2009  03:15:37     AIPS          if ( ((inname <> '')!(inclass <> '')) ! (inseq <> 0) ) then
   3    2   28-FEB-2009  03:15:37     AIPS            lserr=2; type 'DO NOT SPECIFY BOTH INNAME, ETC, AND VARIABLE DOCAT'
   3    2   28-FEB-2009  03:15:37     AIPS          else
   3    2   28-FEB-2009  03:15:37     AIPS            getname(lsname);lsidn=inname;lsidc=inclass;lsids=inseq;lstyp=intype
   3    2   28-FEB-2009  03:15:37     AIPS          end
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      $->inname
   3    2   28-FEB-2009  03:15:37     AIPS      $->inclass
   3    2   28-FEB-2009  03:15:37     AIPS      $->inseq
   3    2   28-FEB-2009  03:15:37     AIPS      $->fsw
   3    2   28-FEB-2009  03:15:37     AIPS      $->lsflag
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsparm(2)<=0) then; lserr=3; type 'SPECIFY THE SOLUTION INTERVAL';end
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsparm(13)<1)then;lsparm(13)=1;type'FACTOR<1 QUESTIONABLE, SET TO 1';end
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsrant<=0)then;lsrant=0;type'AIPS WILL CHOOSE THE REFERENCE ANTENNA';end
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (lsmodl>0) & (length(lscal)>0) ) then
   3    2   28-FEB-2009  03:15:37     AIPS          lserr=4;type 'CANNOT USE STANDARD SOURCE MODEL FOR ALTERNATIVE CALIBRATOR'
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS      $->lscal
   3    2   28-FEB-2009  03:15:37     AIPS          if (length(lscal)<>0) then
   3    2   28-FEB-2009  03:15:37     AIPS            type 'USING NON-STANDARD AMPLITUDE CALIBRATOR, FLUX, UVRANGE :'
   3    2   28-FEB-2009  03:15:37     AIPS            type lscal, lsflux, lsparm(3), lsparm(4);lsampcal='';lsampcal(1)=lscal
   3    2   28-FEB-2009  03:15:37     AIPS          end
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      $->lsflux
   3    2   28-FEB-2009  03:15:37     AIPS      $-> #3+#4 uvrange
   3    2   28-FEB-2009  03:15:37     AIPS        for i=1:20;for j=1:16;if(substr(lsphacal(i),j,j)='*')then;if (lserr<>7) then
   3    2   28-FEB-2009  03:15:37     AIPS          if((i=1)&(j=1))then;star=1;else
   3    2   28-FEB-2009  03:15:37     AIPS            star=-1;lserr=7;type'ONLY USE * IN THE 1ST CHARACTER OF THE 1ST SOURCE'
   3    2   28-FEB-2009  03:15:37     AIPS        end;end;end;end;clrtemp;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsname>0) then; indisk=lsdisk; getname(lsname);longname;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if (inclass='CH 0') then;inclass='LINE';longname;inclass='CH 0';end
   3    2   28-FEB-2009  03:15:37     AIPS          if ( (inclass='CH 0') & (substr(lsbndcal(1),1,1) = ' ') ) then
   3    2   28-FEB-2009  03:15:37     AIPS            lserr=8;type 'SPECIFY THE BANDPASS CALIBRATOR = CALSOUR'
   3    2   28-FEB-2009  03:15:37     AIPS        end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      $-> #11 dopol
   3    2   28-FEB-2009  03:15:37     AIPS      $-> #12 bpa
   3    2   28-FEB-2009  03:15:37     AIPS      $->lscont
   3    2   28-FEB-2009  03:15:37     AIPS      $->lsplot
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsparm(1) > 0) then
   3    2   28-FEB-2009  03:15:37     AIPS          if (lsparm(5)<0) then;type 'SETFC WILL DETERMINE THE CELL SIZE'
   3    2   28-FEB-2009  03:15:37     AIPS          else
   3    2   28-FEB-2009  03:15:37     AIPS            if (lsparm(5)=0) then
   3    2   28-FEB-2009  03:15:37     AIPS              keyword='TELESCOP';gethead
   3    2   28-FEB-2009  03:15:37     AIPS              if (substr(keystrng,1,3)<>'VLA') then
   3    2   28-FEB-2009  03:15:37     AIPS                lserr=5; type 'CANNOT DETERMINE ARRAY - THIS IS NOT THE VLA'
   3    2   28-FEB-2009  03:15:37     AIPS              else;keyword'NUM ROW';inext'AN';invers=0;getthead;k=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS                for j=1:k
   3    2   28-FEB-2009  03:15:37     AIPS                  pixxy=j,1,0;tabget;i=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS                  while((substr(keystrng,i,i)<>':')&(i<9));i=i+1;end
   3    2   28-FEB-2009  03:15:37     AIPS            if ((substr(keystrng,i+1,i+1)<>' ')&(substr(keystrng,i+1,i+1)<>'_'))then
   3    2   28-FEB-2009  03:15:37     AIPS                    lsvla=substr(keystrng,i+1,i+3);else
   3    2   28-FEB-2009  03:15:37     AIPS                    lsvla=substr(keystrng,i+2,i+4);end
   3    2   28-FEB-2009  03:15:37     AIPS                  if ((lsvla<>'OUT')&(lsvla<>'MPD'))then
   3    2   28-FEB-2009  03:15:37     AIPS                    if (lsvla='VPT')then;lsparm(5)=75;else
   3    2   28-FEB-2009  03:15:37     AIPS            if ((substr(keystrng,i+1,i+1)<>' ')&(substr(keystrng,i+1,i+1)<>'_'))then
   3    2   28-FEB-2009  03:15:37     AIPS                        keyword=substr(keystrng,i+2,i+8);else
   3    2   28-FEB-2009  03:15:37     AIPS                        keyword=substr(keystrng,i+3,i+9);end
   3    2   28-FEB-2009  03:15:37     AIPS                        lsparm(5)=max(lsparm(5),value(keyword));clrtemp;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS                if (lsparm(5)<75) then;if (lsparm(5)>36) then;lsparm(5)=36;else
   3    2   28-FEB-2009  03:15:37     AIPS                if (lsparm(5)>18) then;lsparm(5)=11;else
   3    2   28-FEB-2009  03:15:37     AIPS                if(lsparm(5)>9)then;lsparm(5)=3.5;else;lsparm(5)=1;end;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS              end;if(lsparm(5)=0)then;lserr=5;type'WHAT ARRAY?! USE DOARRAY';else
   3    2   28-FEB-2009  03:15:37     AIPS              if(lsparm(5)>0)then
   3    2   28-FEB-2009  03:15:37     AIPS                type char(lsparm(5))!!' KILOMETERS WILL BE USED AS MAXIMUM BASELINE'
   3    2   28-FEB-2009  03:15:37     AIPS          end;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS          if (lsparm(6)>=0)then;if((lsparm(6)<128)!(imsize(2)<128))then
   3    2   28-FEB-2009  03:15:37     AIPS            lserr=6; type 'SPECIFY THE IMSIZE CORRECTLY (>127 OR <0)';end;end
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      $-> #7 niter
   3    2   28-FEB-2009  03:15:37     AIPS          if (lsparm(7) < 0) then; lsparm(7) = 7e4; end
   3    2   28-FEB-2009  03:15:37     AIPS      $-> #8 cutoff
   3    2   28-FEB-2009  03:15:37     AIPS      $-> #9 docal
   3    2   28-FEB-2009  03:15:37     AIPS      $-> #10 doresid
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure getidn
   3    2   28-FEB-2009  03:15:37     AIPS        indisk=lsdisk;inname=lsidn;inclass=lsidc;inseq=lsids;intype=lstyp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure gx
   3    2   28-FEB-2009  03:15:37     AIPS      $  inputs
   3    2   28-FEB-2009  03:15:37     AIPS        go;wait
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure getset
   3    2   28-FEB-2009  03:15:37     AIPS        default;getidn;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure lsclrcal
   3    2   28-FEB-2009  03:15:37     AIPS      $ consolidate lists, deal with calcode='*' later
   3    2   28-FEB-2009  03:15:37     AIPS        scalar lsidx,l,m,n
   3    2   28-FEB-2009  03:15:37     AIPS        task'TABGET';getset;inext'NX';invers 0;keyvalue=0;keystrng''
   3    2   28-FEB-2009  03:15:37     AIPS        keyword'NUM ROW';getthead;lsidx=keyvalue(1);clrtemp;n=0;lssid=0
   3    2   28-FEB-2009  03:15:37     AIPS        if (keyvalue(1)>1000)then;type'WARNING: MORE THAN 1000 SCANS !';end
   3    2   28-FEB-2009  03:15:37     AIPS        for i=1:lsidx $ remember source number
   3    2   28-FEB-2009  03:15:37     AIPS          pixxy=i,3,0;tabget;error=0
   3    2   28-FEB-2009  03:15:37     AIPS          for l=1:n;if(lssid(l)=keyvalue(1))then;error=1;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if(error=0)then;n=n+1;lssid(n)=keyvalue(1);end
   3    2   28-FEB-2009  03:15:37     AIPS        end;inext'SU';invers 0;keyvalue=0;keystrng'';keyword'NUM ROW'
   3    2   28-FEB-2009  03:15:37     AIPS        getthead;lsidx=keyvalue(1);clrtemp;sources'';l=1;m=1;n=1
   3    2   28-FEB-2009  03:15:37     AIPS        for i=1:lsidx
   3    2   28-FEB-2009  03:15:37     AIPS          pixxy=i,2,0;tabget;k=length(keystrng);j=0;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          while (j<20);j=j+1;if (substr(lsampcal(j),1,k)=substr(keystrng,1,k)) then
   3    2   28-FEB-2009  03:15:37     AIPS              lsampcal(l)=lsampcal(j);j=30;lsparm(14)=l;l=l+1;end;end;j=0;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          while (j<20);j=j+1;if (substr(lsphacal(j),1,k)=substr(keystrng,1,k)) then
   3    2   28-FEB-2009  03:15:37     AIPS              lsphacal(m)=lsphacal(j);j=30;lsparm(15)=m;m=m+1;end;end;j=0;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          while (j<5);j=j+1;if (substr(lsbndcal(j),1,k)=substr(keystrng,1,k)) then
   3    2   28-FEB-2009  03:15:37     AIPS              lsbndcal(n)=lsbndcal(j);j=30;lsparm(16)=n;n=n+1;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        end;lspntcal'';lsallcal'';for j=l:20;lsampcal(j)='';end
   3    2   28-FEB-2009  03:15:37     AIPS        for j=m:20;lsphacal(j)='';end;for j=n:5;lsbndcal(j)='';end
   3    2   28-FEB-2009  03:15:37     AIPS        for j=1:lsparm(15);lspntcal(j)=lsphacal(j);end;k=lsparm(15)
   3    2   28-FEB-2009  03:15:37     AIPS        for j=1:lsparm(16);lspntcal(j+k)=lsbndcal(j);end;j=0;l=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        while (j<(lsparm(15)+lsparm(16)));j=j+1;if (length(lspntcal(j))>0) then
   3    2   28-FEB-2009  03:15:37     AIPS          lspntcal(l)=lspntcal(j);if(l<>j)then;lspntcal(j)='';end;l=l+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS      $here - clean up pnt cal for doubles - subtract from total count below
   3    2   28-FEB-2009  03:15:37     AIPS        k=lsparm(15)+lsparm(16);for j=1:k;lsallcal(j)=lspntcal(j);end;l=1
   3    2   28-FEB-2009  03:15:37     AIPS        for j=1:lsparm(14);i=length(lsampcal(j));lsidx=0;m=j
   3    2   28-FEB-2009  03:15:37     AIPS          while ((lsidx<k)&j<30);lsidx=lsidx+1
   3    2   28-FEB-2009  03:15:37     AIPS            if (substr(lspntcal(lsidx),1,i)=substr(lsampcal(j),1,i)) then;j=30;end
   3    2   28-FEB-2009  03:15:37     AIPS        end;if (j<30) then;lsallcal(l+k)=lsampcal(m);l=l+1;end;end;j=0;l=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        while (j<(lsparm(14)+lsparm(15)+lsparm(16)));j=j+1
   3    2   28-FEB-2009  03:15:37     AIPS          if (length(lsallcal(j))>0) then;lsallcal(l)=lsallcal(j)
   3    2   28-FEB-2009  03:15:37     AIPS            if(l<>j)then;lsallcal(j)='';end;l=l+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS      $typ 'LSAMPCAL, LSPHACAL, LSBNDCAL, LSPNTCAL, AND LSALLCAL :'
   3    2   28-FEB-2009  03:15:37     AIPS      $typ lsampcal; typ lsphacal; typ lsbndcal; typ lspntcal; typ lsallcal
   3    2   28-FEB-2009  03:15:37     AIPS        return;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure numtab(lsstrng)
   3    2   28-FEB-2009  03:15:37     AIPS        keystrng'';j=0;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        while ((j<15)&(keystrng<>lsstrng))
   3    2   28-FEB-2009  03:15:37     AIPS          j=j+1;keyword'EXTYPE'!!char(j);gethead;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if (keystrng=lsstrng) then
   3    2   28-FEB-2009  03:15:37     AIPS          keyword'EXTVER'!!char(j);gethead;else;keyvalue=0;end
   3    2   28-FEB-2009  03:15:37     AIPS        keyword'';keystrng'';clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      return keyvalue(1);finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure numbasel
   3    2   28-FEB-2009  03:15:37     AIPS        scalar numarow,numbout,numbant,numbase,idx;string*16 nameant
   3    2   28-FEB-2009  03:15:37     AIPS        numbout=0;keyword'NUM ROW';inext'AN';invers=0;getthead;numarow=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS        for numbant=1:numarow
   3    2   28-FEB-2009  03:15:37     AIPS          pixxy=numbant,1,0;tabget;nameant=keystrng;idx=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          while(substr(nameant,idx,idx)<>':');idx=idx+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(nameant,idx+1,idx+3)='OUT')then;numbout=numbout+1;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(nameant,idx+2,idx+4)='OUT')then;numbout=numbout+1;end
   3    2   28-FEB-2009  03:15:37     AIPS        end;numbase=(numarow-numbout)*(numarow-numbout-1)/2;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      $  type char(numarow-numbout)!!' ANTENNAS',char(numbase)!!' BASELINES'
   3    2   28-FEB-2009  03:15:37     AIPS        return numbase
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure calcintt
   3    2   28-FEB-2009  03:15:37     AIPS        scalar numxrow,numscan,numbbeg,numbend,numcnst,sum,avr,rms,rmax;rmax=300
   3    2   28-FEB-2009  03:15:37     AIPS        array interval(1000),numbvis(1000);avr=0;if(rmax>1000)then;rmax=1000;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (numtab('NX')<1) then;type'NOT MULTISOURCE - NO INTTIME CALCULATED'
   3    2   28-FEB-2009  03:15:37     AIPS        else
   3    2   28-FEB-2009  03:15:37     AIPS          keyword'NUM ROW';inext'NX';invers 0;getthead;numxrow=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS          if(numxrow>rmax)then;numxrow rmax;end
   3    2   28-FEB-2009  03:15:37     AIPS          for numscan=1:numxrow;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy=numscan,2,0;tabget;interval(numscan)=86400*keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy=numscan,5,0;tabget;numbbeg=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy=numscan,6,0;tabget;numbend=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS            numbvis(numscan)=numbend-numbbeg+1;avr=max(avr,numbvis(numscan))
   3    2   28-FEB-2009  03:15:37     AIPS          end;numcnst=numbasel;sum=0
   3    2   28-FEB-2009  03:15:37     AIPS          if (avr > 0) then
   3    2   28-FEB-2009  03:15:37     AIPS            for numscan=1:numxrow;if (numbvis(numscan)>0) then
   3    2   28-FEB-2009  03:15:37     AIPS                sum=sum+( (numcnst*interval(numscan)) / numbvis(numscan) )
   3    2   28-FEB-2009  03:15:37     AIPS            end;end;clrtemp;avr=sum/numxrow;sum=0
   3    2   28-FEB-2009  03:15:37     AIPS            for numscan=1:numxrow;if (numbvis(numscan)>0) then
   3    2   28-FEB-2009  03:15:37     AIPS                sum=sum+((numcnst*interval(numscan))/numbvis(numscan)-avr)**2
   3    2   28-FEB-2009  03:15:37     AIPS          end;end;clrtemp;rms=sum/numxrow;clrtemp;end
   3    2   28-FEB-2009  03:15:37     AIPS      $  type char(numxrow)!!' SCANS/SAMPLES WITH RMS(SEC) +/-'!!char(rms)
   3    2   28-FEB-2009  03:15:37     AIPS      $  type char(avr)!!' SECOND INTEGRATIONS (APPROXIMATELY)'
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS        return avr
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure guesintt
   3    2   28-FEB-2009  03:15:37     AIPS        scalar intcst,intavr,intmod,intime
   3    2   28-FEB-2009  03:15:37     AIPS        intavr=calcintt;intcst=intavr;keyword'TELESCOP';gethead
   3    2   28-FEB-2009  03:15:37     AIPS        if (keystrng='VLA') then;intcst=1+(2/3);end
   3    2   28-FEB-2009  03:15:37     AIPS        if (keystrng='VLBA') then;intcst=0.131072;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (intcst=intavr) then;type'UNKNOWN TELESCOPE :'!!keystrng;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (intavr>10) then
   3    2   28-FEB-2009  03:15:37     AIPS      $    intime=10*floor(0.5+(intavr/10))
   3    2   28-FEB-2009  03:15:37     AIPS          intime=10*floor(intavr/10)
   3    2   28-FEB-2009  03:15:37     AIPS        else;if (intavr>0) then
   3    2   28-FEB-2009  03:15:37     AIPS            intmod=mod(intavr,intcst)
   3    2   28-FEB-2009  03:15:37     AIPS      $      intime=intcst*((intavr-intmod)/intcst+floor(0.5+(intmod/intcst)))
   3    2   28-FEB-2009  03:15:37     AIPS            intime=intcst*((intavr-intmod)/intcst+floor(intmod/intcst))
   3    2   28-FEB-2009  03:15:37     AIPS        else;intime=intavr;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if(numtab('NX')>0)then;type char(intime)!!' SECOND INTEGRATIONS (GUESS)';end
   3    2   28-FEB-2009  03:15:37     AIPS        return intime
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure checkids
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - account for fast switching source names - check on pos, qual, calco
   3    2   28-FEB-2009  03:15:37     AIPS        scalar ra1a,ra1b,ra2a,ra2b,dc1a,dc1b,dc2a,dc2b,n,m,l,idx
   3    2   28-FEB-2009  03:15:37     AIPS        scalar q1,q2,k,x,y1,y2
   3    2   28-FEB-2009  03:15:37     AIPS        string*1 co1,co2
   3    2   28-FEB-2009  03:15:37     AIPS        string*16 n1,n2
   3    2   28-FEB-2009  03:15:37     AIPS        array alist(100),blist(100)
   3    2   28-FEB-2009  03:15:37     AIPS        inext'SU';invers 0;keyword'NUM ROW';keyvalue 0;keystrng'';getthead
   3    2   28-FEB-2009  03:15:37     AIPS        n=keyvalue(1);idx=1;aparm 0;bparm 0;alist 0;blist 0
   3    2   28-FEB-2009  03:15:37     AIPS        if (n < 2) then; type'ONE SOURCE ONLY, SKIPPING FASTSWITCH TEST';else
   3    2   28-FEB-2009  03:15:37     AIPS          for m=1:(n-1);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy m,11;inext'SU';tabget;ra1a keyvalue(1);ra1b keyvalue(2)
   3    2   28-FEB-2009  03:15:37     AIPS            for l=(m+1):n;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS              pixxy l,11;tabget;ra2a keyvalue(1);ra2b keyvalue(2)
   3    2   28-FEB-2009  03:15:37     AIPS              if (abs(ra1a-ra2a)=0) then
   3    2   28-FEB-2009  03:15:37     AIPS                if ( abs((ra1b-ra2b)*3600*1000) < 3 ) then $ RA within 3 mas!
   3    2   28-FEB-2009  03:15:37     AIPS                  pixxy m,12;tabget;dc1a keyvalue(1);dc1b keyvalue(2)
   3    2   28-FEB-2009  03:15:37     AIPS                  pixxy l,12;tabget;dc2a keyvalue(1);dc2b keyvalue(2)
   3    2   28-FEB-2009  03:15:37     AIPS                  if (abs(dc1a-dc2a)=0) then
   3    2   28-FEB-2009  03:15:37     AIPS                    if ( abs((dc1b-dc2b)*3600*1000) < 3 ) then $ DC within 3 mas!
   3    2   28-FEB-2009  03:15:37     AIPS                      pixxy m,3;tabget;q1 keyvalue(1);pixxy l,3;tabget;q2 keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS      $if one has zero vis then next checks not needed and declare/fix same source
   3    2   28-FEB-2009  03:15:37     AIPS                      inext'NX';keyword'NUM ROW';getthead;k=keyvalue(1);y1=0;y2=0
   3    2   28-FEB-2009  03:15:37     AIPS                      for x=1:k;pixxy x,3;tabget
   3    2   28-FEB-2009  03:15:37     AIPS                        if(keyval(1)=m)then;y1=y1+1;else;
   3    2   28-FEB-2009  03:15:37     AIPS                        if(keyval(1)=l)then;y2=y2+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS                      end $ if ((y1=0)!(y2=0)) then one has 0 visibilities: do dsorc
   3    2   28-FEB-2009  03:15:37     AIPS                      if (q1=q2)!((y1=0)!(y2=0)) then ;inext'SU' $ same calcode?
   3    2   28-FEB-2009  03:15:37     AIPS                        pixxy m,4;tabget;co1 keystrng;pixxy l,4;tabget;co2 keystrng
   3    2   28-FEB-2009  03:15:37     AIPS                        if (co1=co2)!((y1=0)!(y2=0)) then
   3    2   28-FEB-2009  03:15:37     AIPS                          pixxy m,1;tabget;q1 keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS                          pixxy l,1;tabget;q2 keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS                          pixxy m,2;tabget;n1 keystrng;pixxy l,2;tabget;n2 keystrng
   3    2   28-FEB-2009  03:15:37     AIPS                          if (idx>100) then
   3    2   28-FEB-2009  03:15:37     AIPS                            type 'TOO MANY SOURCES TO DO DSORC - DO BY HAND!'
   3    2   28-FEB-2009  03:15:37     AIPS                           type 'NEXT =.'!!char(idx)!!' DO:'!!char(l)!!'.&.'!!char(m)
   3    2   28-FEB-2009  03:15:37     AIPS                          else
   3    2   28-FEB-2009  03:15:37     AIPS                            if (length(n1)<length(n2)) then $ keep shortest name
   3    2   28-FEB-2009  03:15:37     AIPS                              alist(idx) q2;blist(idx) q1
   3    2   28-FEB-2009  03:15:37     AIPS                            else;alist(idx) q1;blist(idx) q2
   3    2   28-FEB-2009  03:15:37     AIPS          end;end;idx=idx+1;end;end;end;end;end;end;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if (idx>1) then;task'DSORC';n=0
   3    2   28-FEB-2009  03:15:37     AIPS            outname inname;outclass inclass;outseq inseq;outdisk indisk
   3    2   28-FEB-2009  03:15:37     AIPS            while (n<idx)
   3    2   28-FEB-2009  03:15:37     AIPS             for l=1:10;aparm(l)=alist(l+n);bparm(l)=blist(l+n);end;gx;n=n+10;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          end;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(idx>100)then;type'TOO MANY SOURCES FOR DSORC';error 1;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure chkobjct
   3    2   28-FEB-2009  03:15:37     AIPS        if (((lsobj='3C286')!(lsobj='3C48'))!((lsobj='3C138')!(lsobj='3C147')))
   3    2   28-FEB-2009  03:15:37     AIPS          then; object=lsobj;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (( (lsobj='1331+305') ! (lsobj='1328+307') ) ! (lsobj='J1331+3030') )
   3    2   28-FEB-2009  03:15:37     AIPS          then; object='3C286';end
   3    2   28-FEB-2009  03:15:37     AIPS        if (( (lsobj='0137+331') ! (lsobj='0134+329') ) ! (lsobj='J0137+3309') )
   3    2   28-FEB-2009  03:15:37     AIPS          then; object='3C48';end
   3    2   28-FEB-2009  03:15:37     AIPS        if (( (lsobj='0521+166') ! (lsobj='0518+165') ) ! (lsobj='J0521+1638') )
   3    2   28-FEB-2009  03:15:37     AIPS          then; object='3C138';end
   3    2   28-FEB-2009  03:15:37     AIPS        if (( (lsobj='0542+498') ! (lsobj='0538+498') ) ! (lsobj='J0542+4951') )
   3    2   28-FEB-2009  03:15:37     AIPS          then; object='3C147';end
   3    2   28-FEB-2009  03:15:37     AIPS        if (( (lsobj='1411+522') ! (lsobj='1409+524') ) ! (lsobj='J1411+5212') )
   3    2   28-FEB-2009  03:15:37     AIPS          then; object='3C295';end;clrtemp;return
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure checkbnd
   3    2   28-FEB-2009  03:15:37     AIPS        band='';j=1
   3    2   28-FEB-2009  03:15:37     AIPS        while (j<9)
   3    2   28-FEB-2009  03:15:37     AIPS          keyword='CTYPE'!!char(j);gethead;keyword='CRVAL'!!char(j);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        keyvalue(1)=keyvalue(1)/1e9
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (keyvalue(1)>38)    & (keyvalue(1)<51) )    then; band='Q';end
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (keyvalue(1)>20.4)  & (keyvalue(1)<25.5) )  then; band='K';end
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (keyvalue(1)>13.5)  & (keyvalue(1)<16.3) )  then; band='U';end
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (keyvalue(1)> 6.8)  & (keyvalue(1)< 9.6) )  then; band='X';end
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (keyvalue(1)> 4.2)  & (keyvalue(1)< 5.1) )  then; band='C';end
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (keyvalue(1)> 1.15) & (keyvalue(1)< 1.75) ) then; band='L';end
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (keyvalue(1)>0.298) & (keyvalue(1)<0.345) ) then; band='P';end
   3    2   28-FEB-2009  03:15:37     AIPS        if ( (keyvalue(1)>0.072) & (keyvalue(1)<0.076) ) then; band='4';end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        return
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure chkmodel
   3    2   28-FEB-2009  03:15:37     AIPS        error=0;sysout='';sys2com''
   3    2   28-FEB-2009  03:15:37     AIPS        syscom'ls -1 $AIPSTARS/
   3    2   28-FEB-2009  03:15:37     AIPS        sys2com(1) inname!!'.MODEL'
   3    2   28-FEB-2009  03:15:37     AIPS        sys2com(2) ' >& /dev/null
   3    2   28-FEB-2009  03:15:37     AIPS        system
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure loadmodl
   3    2   28-FEB-2009  03:15:37     AIPS        scalar lsidx,l
   3    2   28-FEB-2009  03:15:37     AIPS        array lsload(5)
   3    2   28-FEB-2009  03:15:37     AIPS        task'TABGET';getset;inext'SU';invers 0;keyvalue=0;keystrng''
   3    2   28-FEB-2009  03:15:37     AIPS        keyword'NUM ROW';getthead;lsidx=keyvalue(1);l=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        for i=1:lsidx
   3    2   28-FEB-2009  03:15:37     AIPS          pixxy=i,2,0;tabget;k=length(keystrng);j=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          while (j<21)
   3    2   28-FEB-2009  03:15:37     AIPS            if (substr(lsampcal(j),1,k)=substr(keystrng,1,k)) then
   3    2   28-FEB-2009  03:15:37     AIPS              lsload(l)=i;j=30;l=l+1;else;j=j+1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        end;end;end;lsidx=0;checkbnd;keyword'EPOCH';keyvalue=0;keystrng='';gethead
   3    2   28-FEB-2009  03:15:37     AIPS        if (keyvalue(1)<1999) then;lsidx=1;end
   3    2   28-FEB-2009  03:15:37     AIPS        for j=1:(l-1)
   3    2   28-FEB-2009  03:15:37     AIPS          lsobj=lsampcal(j);chkobjct;clrtemp;intype'MA';outdisk=lsdisk
   3    2   28-FEB-2009  03:15:37     AIPS          inname=object!!'_'!!band;inclass'MODEL';inseq=1;indisk=lsdisk;chkname
   3    2   28-FEB-2009  03:15:37     AIPS      $$  if (error>0) then;type lsampcal(lsload(j))!!' MODEL ='inname;chkmodel
   3    2   28-FEB-2009  03:15:37     AIPS          if (error>0) then;type lsampcal(j)!!' MODEL ='inname;chkmodel
   3    2   28-FEB-2009  03:15:37     AIPS            if(error<1)then;go calrd;if (lsidx>0) then;eposwtch;end;end;end $ J2000
   3    2   28-FEB-2009  03:15:37     AIPS        end;return
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure vlanew
   3    2   28-FEB-2009  03:15:37     AIPS        clrstat;j=numtab('BP');if (j>0) then;inext'BP';invers=-1;extdest;end
   3    2   28-FEB-2009  03:15:37     AIPS        j=numtab('CL');if (j>1) then;inext'CL';for k=2:j;invers=k;extdest;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        j=numtab('SN');if (j>0) then;inext'SN';invers=-1;extdest;end
   3    2   28-FEB-2009  03:15:37     AIPS        j=numtab('XX');if (j>0) then;inext'XX';invers=-1;extdest;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (inclass='LINE') then
   3    2   28-FEB-2009  03:15:37     AIPS          j=numtab('FG');if (j>1) then;inext'FG';for k=2:j;invers=k;extdest;end;end
   3    2   28-FEB-2009  03:15:37     AIPS          j=numtab('CL');if (j>1) then;inext'CL';for k=2:j;invers=k;extdest;end;end
   3    2   28-FEB-2009  03:15:37     AIPS          j=numtab('BP');if (j>0) then;inext'BP';invers=-1;extdest;end
   3    2   28-FEB-2009  03:15:37     AIPS          j=numtab('PL');if (j>0) then;inext'PL';invers=-1;extdest;end
   3    2   28-FEB-2009  03:15:37     AIPS        end;j=numtab('PL');if (j>0) then;inext'PL';invers=-1;extdest;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        type'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)'
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure allzap
   3    2   28-FEB-2009  03:15:37     AIPS        chkname;if(error<1)then;for j=1:(1-error);zap;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure allplot
   3    2   28-FEB-2009  03:15:37     AIPS        tvinit;j=numtab('PL');type 'NUMBER OF PLOT FILES TO SHOW ON TV:'!!char(j)
   3    2   28-FEB-2009  03:15:37     AIPS        if (j>0) then
   3    2   28-FEB-2009  03:15:37     AIPS          for k=1:j;plver=k;type 'PLOT'char(k)!!'/'!!char(j);go tvpl;read;end
   3    2   28-FEB-2009  03:15:37     AIPS          else;type 'NOTHING TO PLOT - DONE';end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure goplt
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsplot>=0) then;go;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish $UV and vis only
   3    2   28-FEB-2009  03:15:37     AIPS      procedure goplt0
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsplot>0) then;go;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish $SN only
   3    2   28-FEB-2009  03:15:37     AIPS      procedure goplt1
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsplot>1) then;go;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish $SN+CL
   3    2   28-FEB-2009  03:15:37     AIPS      procedure goplt2
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsplot>2) then;go;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish $SN+CL+BP
   3    2   28-FEB-2009  03:15:37     AIPS      procedure goplt3
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsplot>3) then;go;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish $CL,BP applied
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure calpipe(lsdisk,lsname,lsrant)
   3    2   28-FEB-2009  03:15:37     AIPS        vnum=33;dowait=true;getidn;vlanew;j=0;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if (inclass='CH 0') then;inclass'LINE';vlanew;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if(fsw>0)then;checkids;if(inclass='CH 0')then;inclass'LINE';checkids;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        if ((numtab('FG')<1)&(lsflag>=0)) then
   3    2   28-FEB-2009  03:15:37     AIPS          if (lsflag>=1) then
   3    2   28-FEB-2009  03:15:37     AIPS            task'QUACK';getset;flagver=1;opcode'BEG';i=min(3*tint,20)
   3    2   28-FEB-2009  03:15:37     AIPS            reason char(i)!!' SEC AUTO-QUACK';aparm=0,i/60,(tint/60)*1.1;j=1
   3    2   28-FEB-2009  03:15:37     AIPS            while (j<9);keyword='CTYPE'!!char(j);gethead;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS              if(keystrng='FREQ')then
   3    2   28-FEB-2009  03:15:37     AIPS                keyword='CRVAL'!!char(j);gethead;keyval(1)=keyval(1)/1e10;j=9
   3    2   28-FEB-2009  03:15:37     AIPS                if (keyval(1) < 1.8) then;clrtemp;go;else;tput quack
   3    2   28-FEB-2009  03:15:37     AIPS                  type 'QUACK SKIPPED FOR THIS HIGH FREQUENCY OBSERVATION'
   3    2   28-FEB-2009  03:15:37     AIPS                  type 'MAY BE A FAST-SWITHCING OBS - IE LOSS OF ALL DATA'
   3    2   28-FEB-2009  03:15:37     AIPS                  type 'RUN BY HAND IF YOU REALLY WANT THIS QUACK';tget quack
   3    2   28-FEB-2009  03:15:37     AIPS            end;else;j=j+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS          end;task'FLAGR';getset
   3    2   28-FEB-2009  03:15:37     AIPS          docal 2;solint=max(3*tint-2,2.7*tint);vector=-1;docrt 0;go
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS        task'SNPLT';getset;inext'CL';nplots 8;optype'AMP';vput;pixrange=0.7,1.8
   3    2   28-FEB-2009  03:15:37     AIPS        goplt1;task'SETJY';getset;optype'REJY';aparm=0;freqid=1;go;optype'CALC'
   3    2   28-FEB-2009  03:15:37     AIPS          if (length(lscal)<>0) then
   3    2   28-FEB-2009  03:15:37     AIPS            optype'';zerosp=lsflux,0;lsallcal=lscal,lspntcal
   3    2   28-FEB-2009  03:15:37     AIPS          end;sources=lsampcal;go;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        task'CALIB';getset;docalib=2;refant=lsrant;aparm=3,0,0,0,0,0,4,0,0;calcode''
   3    2   28-FEB-2009  03:15:37     AIPS          solint=lsparm(2);calsour=lspntcal;snver=numtab('SN')+1;solmode'P'
   3    2   28-FEB-2009  03:15:37     AIPS          soltype'L1R';baddisk=lsbadd;vput;kj=0;userid=0;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          while (kj<9)
   3    2   28-FEB-2009  03:15:37     AIPS            kj=kj+1;keyvalue=0;keystrng'';keyword='CTYPE'!!char(kj);gethead;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            if(substr(keystrng,1,4)='FREQ')then;keyword='CRVAL'!!char(kj);gethead
   3    2   28-FEB-2009  03:15:37     AIPS          kj=10;end;end;vget;if((keyvalue(1))>17e9&(solint>0.5))then;solint=1/3
   3    2   28-FEB-2009  03:15:37     AIPS            aparm(7)=3.5;vput;type' AUTOMATIC RESET: SOLINT=20SEC (HIGH FREQ)';end
   3    2   28-FEB-2009  03:15:37     AIPS        if(star>0)then;calsour'';calcode'*';end;go
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsmodl>0) then $ use models for ones that exist
   3    2   28-FEB-2009  03:15:37     AIPS          loadmodl;vget calib;calsour='';in2seq=0;in2disk=lsdisk;in2class'MODEL'
   3    2   28-FEB-2009  03:15:37     AIPS          for j=1:(l-1)
   3    2   28-FEB-2009  03:15:37     AIPS            inext'SU';pixxy=lsload(j),2,0;tabget;calsour(1)=keystrng;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy=lsload(j),4,0;tabget;calcode=substr(keystrng,1,4);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            lsobj=lsampcal(j);chkobjct;in2name=object!!'_'!!band
   3    2   28-FEB-2009  03:15:37     AIPS            vput calib;inname=in2name;inclass=in2class;inseq=in2seq;indisk=in2disk
   3    2   28-FEB-2009  03:15:37     AIPS      $ if no model, use point with full uvrange
   3    2   28-FEB-2009  03:15:37     AIPS            chkname;vget calib;if (error>0)then;clr2name;end;go
   3    2   28-FEB-2009  03:15:37     AIPS          end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        else;uvrange=lsparm(3),lsparm(4);calsour=lsampcal;go;end
   3    2   28-FEB-2009  03:15:37     AIPS        vget snplt;inext'SN';optype'PHAS';goplt0;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        task'CLCAL';getset;freqid=1;refant=lsrant;gainuse=numtab('CL')+1
   3    2   28-FEB-2009  03:15:37     AIPS          snver=numtab('SN');gainver=numtab('CL');sources'';soucode''
   3    2   28-FEB-2009  03:15:37     AIPS          calsour=lsphacal;calcode'';vput;if(star>0)then;calsour'';calcode'*';end;go
   3    2   28-FEB-2009  03:15:37     AIPS          calsour=lsallcal;sources=calsour;interpol'SELF'
   3    2   28-FEB-2009  03:15:37     AIPS          if(star>0)then;calsour'';calcode'*';soucode'*';end;go
   3    2   28-FEB-2009  03:15:37     AIPS        vget snplt;inext'CL';optype'PHAS';goplt1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        vget calib;solmode'A&P';calsour=lspntcal;calcode'';snver=numtab('SN')+1
   3    2   28-FEB-2009  03:15:37     AIPS        solint=lsparm(13)*lsparm(2);clr2name;vput
   3    2   28-FEB-2009  03:15:37     AIPS        if(star>0)then;calsour'';calcode'*';end;go
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsmodl>0) then
   3    2   28-FEB-2009  03:15:37     AIPS          loadmodl;vget calib;calsour='';in2seq=0;in2disk=lsdisk;in2class'MODEL'
   3    2   28-FEB-2009  03:15:37     AIPS          for j=1:(l-1)
   3    2   28-FEB-2009  03:15:37     AIPS            inext'SU';pixxy=lsload(j),2,0;tabget;calsour(1)=keystrng;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy=lsload(j),4,0;tabget;calcode=substr(keystrng,1,4);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            lsobj=lsampcal(j);chkobjct;in2name=object!!'_'!!band;calcode''
   3    2   28-FEB-2009  03:15:37     AIPS            vput calib;inname=in2name;inclass=in2class;inseq=in2seq;indisk=in2disk
   3    2   28-FEB-2009  03:15:37     AIPS      $ if no model, use point with full uvrange
   3    2   28-FEB-2009  03:15:37     AIPS            chkname;vget calib;if (error>0)then;clr2name;end;go
   3    2   28-FEB-2009  03:15:37     AIPS          end;inseq=0;indisk=lsdisk;inclass'MODEL';intype'MA'
   3    2   28-FEB-2009  03:15:37     AIPS          for j=1:(l-1)
   3    2   28-FEB-2009  03:15:37     AIPS            lsobj=lsampcal(j);chkobjct;inname=object!!'_'!!band;chkname
   3    2   28-FEB-2009  03:15:37     AIPS            if (error<1) then;zap;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        else;uvrange=lsparm(3),lsparm(4);calsour=lsampcal;go;end
   3    2   28-FEB-2009  03:15:37     AIPS        vget snplt;inext'SN';optype'AMP';goplt0;optype'PHAS';pixrange=-20,20;goplt0
   3    2   28-FEB-2009  03:15:37     AIPS        task'GETJY';getset;calsour=lsampcal;snver=numtab('SN')
   3    2   28-FEB-2009  03:15:37     AIPS        if (star>0) then
   3    2   28-FEB-2009  03:15:37     AIPS      $    for j=1:lsparm(14);sources(j)='-'!!lsampcal(j);end;k=lsparm(14)+1
   3    2   28-FEB-2009  03:15:37     AIPS      $    if (length(lscal)>0) then;sources(k)='-'!!lscal;k=k+1;end
   3    2   28-FEB-2009  03:15:37     AIPS      $    for j=k:(25-k+2);sources(j)=lspntcal(j-k+2);end
   3    2   28-FEB-2009  03:15:37     AIPS      soucode='*'
   3    2   28-FEB-2009  03:15:37     AIPS        else
   3    2   28-FEB-2009  03:15:37     AIPS          sources=lspntcal;if (length(lscal)>0) then;sources(11)='-'!!lscal;end
   3    2   28-FEB-2009  03:15:37     AIPS        end;go
   3    2   28-FEB-2009  03:15:37     AIPS        if (lscont<1) then
   3    2   28-FEB-2009  03:15:37     AIPS          type '********************************************************'
   3    2   28-FEB-2009  03:15:37     AIPS          type '** WRITE DOWN THE FLUX DENSITIES FOR YOUR CALIBRATORS **'
   3    2   28-FEB-2009  03:15:37     AIPS          type '**       (AND DO NOT FORGET THE ERRORS EITHER!)       **'
   3    2   28-FEB-2009  03:15:37     AIPS          type '********************************************************';read
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS        vget clcal;gainver=numtab('CL');gainuse=numtab('CL')+1;snver=numtab('SN')
   3    2   28-FEB-2009  03:15:37     AIPS        if(star>0)then;calsour'';calcode'*';end;go;calsour=lsallcal;sources=calsour
   3    2   28-FEB-2009  03:15:37     AIPS        interpol'SELF';if(star>0)then;calsour'';calcode'*';soucode'*';end;go
   3    2   28-FEB-2009  03:15:37     AIPS        vget snplt;inext'CL';optype'AMP';goplt1;optype'PHAS';goplt1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if (inclass='CH 0') then
   3    2   28-FEB-2009  03:15:37     AIPS          task'TACOP';getset
   3    2   28-FEB-2009  03:15:37     AIPS            outdisk=indisk;outname=inname;outclass'LINE';outseq=inseq;ncount=1
   3    2   28-FEB-2009  03:15:37     AIPS            keystrng'';inext'FG';invers=numtab('FG');if (invers>0) then;go;end
   3    2   28-FEB-2009  03:15:37     AIPS            inext'CL';invers=numtab('CL');keyvalue 0;outseq=inseq;vput;go;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          task'BPASS';getset;inclass'LINE';calsour=lsbndcal,lsampcal;docal=2
   3    2   28-FEB-2009  03:15:37     AIPS            solint=-1;bpassprm(5)=-1;bpassprm(9)=1;baddisk=lsbadd;go;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          task'POSSM';getset;inclass'LINE';bpver 0;aparm=0,1,.4,1.2,-30,30,0,2,3,0
   3    2   28-FEB-2009  03:15:37     AIPS            nplots=6;goplt2;sources=lsbndcal;docalib 2;doband 1;aparm=1 0;aparm(9)=3
   3    2   28-FEB-2009  03:15:37     AIPS            antennas=lsrant,0;goplt2;nplots=0;vput;goplt2;stokes'I';antennas=0;goplt2
   3    2   28-FEB-2009  03:15:37     AIPS            sources=lsampcal;goplt3
   3    2   28-FEB-2009  03:15:37     AIPS          vget tacop;inclass'LINE';outclass'CH 0';invers=numtab('BP');inext'BP';go
   3    2   28-FEB-2009  03:15:37     AIPS        end;task'TASAV';getset;outdisk=indisk;go;dowait=false;vnum=0;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure calcrms
   3    2   28-FEB-2009  03:15:37     AIPS        scalar nbas,nvis,tbw,rms,minhrs
   3    2   28-FEB-2009  03:15:37     AIPS        keyword'GCOUNT';gethead;nvis=keyvalue(1);nbas=numbasel;j=1
   3    2   28-FEB-2009  03:15:37     AIPS        minhrs=nvis*tint/(nbas*3600) $ underesimate of obs hours (overestimate rms)
   3    2   28-FEB-2009  03:15:37     AIPS        while (j<9) $ bandwidth in a channel, continuum or spectral line
   3    2   28-FEB-2009  03:15:37     AIPS          keyword='CTYPE'!!char(j);gethead;keyword='CDELT'!!char(j);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end;tbw=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS        if (lsidc <> 'CH 0') then;j=1 $ continuum, multiple IFs averaged
   3    2   28-FEB-2009  03:15:37     AIPS          while (j<9)
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='CTYPE'!!char(j);gethead;keyword='NAXIS'!!char(j);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            if(keystrng='IF')then;gethead;j=9;else;j=j+1;end;end;tbw=tbw*keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS        end;checkbnd;if((band='P')!(band='4'))then;tbw=tbw/3.2;else;tbw=tbw/50;end
   3    2   28-FEB-2009  03:15:37     AIPS        tbw=sqrt(tbw*minhrs/24e6);rms=-1
   3    2   28-FEB-2009  03:15:37     AIPS        if (band='Q')then;rms=3.0e-5/tbw;end;if (band='K')then;rms=2.5e-5/tbw;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (band='U')then;rms=2.0e-5/tbw;end;if (band='X')then;rms=5.3e-6/tbw;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (band='C')then;rms=6.4e-6/tbw;end;if (band='L')then;rms=6.6e-6/tbw;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (band='P')then;rms=1.7e-4/tbw;end;if (band='4')then;rms=1.5e-2/tbw;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (rms<0) then;type 'CANNOT CALCULATE RMS FROM OBSERVING BAND ..';end
   3    2   28-FEB-2009  03:15:37     AIPS        typ 'ESTIMATED RMS:' char(rms*1000)!!' MILLI JANSKY'
   3    2   28-FEB-2009  03:15:37     AIPS        return rms
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure setboxfle
   3    2   28-FEB-2009  03:15:37     AIPS        scalar ci,bi
   3    2   28-FEB-2009  03:15:37     AIPS        string*12 srcnme
   3    2   28-FEB-2009  03:15:37     AIPS        string*48 fbox
   3    2   28-FEB-2009  03:15:37     AIPS        srcnme=inname;ci=0;bi=length(srcnme)
   3    2   28-FEB-2009  03:15:37     AIPS        while(ci<bi);ci=ci+1
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(srcnme,ci,ci)='/')then;substr(srcnme,ci,ci)=',';end;clrtemp;end
   3    2   28-FEB-2009  03:15:37     AIPS        fbox'/tmp/SETFC@
   3    2   28-FEB-2009  03:15:37     AIPS        fbox=fbox!!srcnme!!'_'!!inclass!!'.'!!char(inseq)!!'-'!!char(indisk)
   3    2   28-FEB-2009  03:15:37     AIPS        ci=0;bi=length(fbox)
   3    2   28-FEB-2009  03:15:37     AIPS        while(ci<bi);ci=ci+1
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(fbox,ci,ci)=' ')then;substr(fbox,ci,ci)=',';end;clrtemp;end
   3    2   28-FEB-2009  03:15:37     AIPS        return fbox
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure delboxfle
   3    2   28-FEB-2009  03:15:37     AIPS        sys2com'';sysout'';syscom 'rm -f
   3    2   28-FEB-2009  03:15:37     AIPS        sys2com(1) 'X'!!boxfile;substr(sys2com(1),1,1)=''
   3    2   28-FEB-2009  03:15:37     AIPS        sys2com(2) ' >& /dev/null
   3    2   28-FEB-2009  03:15:37     AIPS        if(substr(boxfile,1,1)<>' ')then;system;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure catboxfile
   3    2   28-FEB-2009  03:15:37     AIPS        string*20 expnm
   3    2   28-FEB-2009  03:15:37     AIPS        string*75 expmsg
   3    2   28-FEB-2009  03:15:37     AIPS        if (substr(expmsg,1,5)='ARUN:')then
   3    2   28-FEB-2009  03:15:37     AIPS          expmsg = substr(expmsg,6,71);sysout='$ARUN/'!!expmsg
   3    2   28-FEB-2009  03:15:37     AIPS        else;if (substr(expmsg,1,6)<>'$ARUN/')then;sysout = '$ARUN/'!!expmsg
   3    2   28-FEB-2009  03:15:37     AIPS        else;sysout = expmsg;end;end;sys2com'';syscom 'echo
   3    2   28-FEB-2009  03:15:37     AIPS        sys2com(1) ' "SETFC FILE FOR SOURCEX'!!inname!!' BELOW IS:"'
   3    2   28-FEB-2009  03:15:37     AIPS        substr(sys2com(1),24,24)='';clrtemp;system;syscom 'cat
   3    2   28-FEB-2009  03:15:37     AIPS        sys2com(1) 'X'!!boxfile;substr(sys2com(1),1,1)='';clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        system
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure setimsize
   3    2   28-FEB-2009  03:15:37     AIPS        scalar szf, kk, prbm
   3    2   28-FEB-2009  03:15:37     AIPS        string*48 bxf
   3    2   28-FEB-2009  03:15:37     AIPS        array szc(2), szi(2), orgc(2), orgi(2)
   3    2   28-FEB-2009  03:15:37     AIPS        vput imagr;task'SETFC';sources'';bcount=1;bxf=setboxfle;boxfile=bxf
   3    2   28-FEB-2009  03:15:37     AIPS        bparm=0;infile='';shift=0;flux=0;pbparm=0.25,0;delboxfle
   3    2   28-FEB-2009  03:15:37     AIPS        orgc=cellsize;cellsize=0;orgi=lsparm(6);imsize=0;kk=1
   3    2   28-FEB-2009  03:15:37     AIPS        while (kk<9)
   3    2   28-FEB-2009  03:15:37     AIPS          keyword='CTYPE'!!char(kk);gethead;keyword='CRVAL'!!char(kk);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if (keystrng='FREQ') then;gethead;kk=9;else;kk=kk+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        keyvalue(1)=keyvalue(1)/1e9;prbm=0.375/keyvalue(1);bparm(1)=prbm;bparm(2)=30
   3    2   28-FEB-2009  03:15:37     AIPS        bparm(3)=1;bparm(4)=0;bparm(5)=0.031;bparm(6)=256;bparm(7)=256;bparm(8)=100
   3    2   28-FEB-2009  03:15:37     AIPS        gx;bparm(4)=3*prbm;bparm(1)=-0.7*bparm(1);bcount=nfield+1
   3    2   28-FEB-2009  03:15:37     AIPS        type'SEARCHING FOR NVSS SOURCES';gx;szf=nfield;szc=cellsize;szi=imsize
   3    2   28-FEB-2009  03:15:37     AIPS        vget imagr;if(lsparm(5)<0)then;cellsize=szc;else;cellsize=orgc;end
   3    2   28-FEB-2009  03:15:37     AIPS        if(lsparm(6)<0)then;imsize=256;nfield=szf;boxfile=bxf;else;imsize=orgi;end
   3    2   28-FEB-2009  03:15:37     AIPS        vput imagr
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure imapipe(k,lsdisk,lsname)
   3    2   28-FEB-2009  03:15:37     AIPS        vnum=33;dowait=true
   3    2   28-FEB-2009  03:15:37     AIPS        if (k=1) then
   3    2   28-FEB-2009  03:15:37     AIPS          task'SPLIT';getset;outdisk=indisk;outclass=inclass;docalib=2
   3    2   28-FEB-2009  03:15:37     AIPS            baddisk=lsbadd;douvcomp=-1;go
   3    2   28-FEB-2009  03:15:37     AIPS          if (inclass='CH 0') then;inclass'LINE';outclass=inclass;doband=1;bpver=0
   3    2   28-FEB-2009  03:15:37     AIPS            go;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        task'TABGET';getset;inext'SU';invers=0;keyvalue=0;keystrng'';vput;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        task'IMAGR';getset;outdisk=indisk;flux=lsparm(8);baddisk=lsbadd;j=1
   3    2   28-FEB-2009  03:15:37     AIPS        while (j<9)
   3    2   28-FEB-2009  03:15:37     AIPS          keyword='CTYPE'!!char(j);gethead;keyword='CRVAL'!!char(j);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        cellsize=1.75e10/(keyvalue(1)*abs(lsparm(5)));do3dimag=1;overlap=2;vput
   3    2   28-FEB-2009  03:15:37     AIPS        keyword'NUM ROW';inext'SU';invers=0;keystrng'';getthead;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        for i=1:keyvalue(1) $ check if source is in index and uvfile exists
   3    2   28-FEB-2009  03:15:37     AIPS          vget tabget;pixxy=i,2,0;tabget;vget imagr;inname=keystrng;j=1;intype'UV'
   3    2   28-FEB-2009  03:15:37     AIPS          inseq=0;chkname;type ' ';niter=lsparm(7);lstarg=1;clrtemp;vput
   3    2   28-FEB-2009  03:15:37     AIPS          if (error < 1) then $ source file exists, but same source number ?
   3    2   28-FEB-2009  03:15:37     AIPS            vget tabget;pixxy=i,1,0;tabget;error=1;k=1
   3    2   28-FEB-2009  03:15:37     AIPS            while ((lssid(k)>0) & (k<1001))
   3    2   28-FEB-2009  03:15:37     AIPS              if (lssid(k)=keyvalue(1))then error=0;end
   3    2   28-FEB-2009  03:15:37     AIPS              k=k+1;end;keyword'GCOUNT';gethead
   3    2   28-FEB-2009  03:15:37     AIPS            if(keyvalue(1)<10)then;type'NO DATA';error=1;end;end;vget imagr
   3    2   28-FEB-2009  03:15:37     AIPS          if (error < 1) then
   3    2   28-FEB-2009  03:15:37     AIPS            if ((lsparm(7)=7e4)&(lsparm(8)<0))then;flux=6*calcrms;end
   3    2   28-FEB-2009  03:15:37     AIPS            if ((lsparm(6)<0)!(lsparm(5)<0))then;setimsize;else;imsize=lsparm(6);end
   3    2   28-FEB-2009  03:15:37     AIPS            while (j<30)
   3    2   28-FEB-2009  03:15:37     AIPS              k=length(inname)
   3    2   28-FEB-2009  03:15:37     AIPS              if (substr(lsallcal(j),1,k)=substr(inname,1,k)) then $ calibrator
   3    2   28-FEB-2009  03:15:37     AIPS                lstarg=0;j=30
   3    2   28-FEB-2009  03:15:37     AIPS                if(lsparm(6)>=-0.99)then;niter=min(500,lsparm(7))
   3    2   28-FEB-2009  03:15:37     AIPS                  nfield=1;boxfile'';imsize=min(256,lsparm(6))
   3    2   28-FEB-2009  03:15:37     AIPS                  if(imsize(1)<0)then;imsize=256;end;end
   3    2   28-FEB-2009  03:15:37     AIPS              else;j=j+1;end $ check next source, if not found -> target
   3    2   28-FEB-2009  03:15:37     AIPS            end;if(substr(boxfile,1,1)<>' ')then;catboxfile;end
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      j=1
   3    2   28-FEB-2009  03:15:37     AIPS      $calibrator lstarg=0
   3    2   28-FEB-2009  03:15:37     AIPS      $target if lstarg=1
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS            while (j<9)
   3    2   28-FEB-2009  03:15:37     AIPS              keyword='CTYPE'!!char(j);gethead;keyword='NAXIS'!!char(j);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS              if (keystrng='IF') then;gethead;j=9;else;j=j+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS              type '    NOW STARTING WITH SOURCE  :'!!char(i)!!'  ='!!inname;type ' '
   3    2   28-FEB-2009  03:15:37     AIPS            if (inclass='CH 0') then
   3    2   28-FEB-2009  03:15:37     AIPS              for k=1:keyvalue(1);bif=k;eif=k
   3    2   28-FEB-2009  03:15:37     AIPS                if ((lstarg>0)!(lsparm(9)>0)) then;go;end
   3    2   28-FEB-2009  03:15:37     AIPS              end;clrtemp;k=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS              inclass'LINE';keyvalue=0;keystrng'';j=1;chkname
   3    2   28-FEB-2009  03:15:37     AIPS              if (error < 1) then
   3    2   28-FEB-2009  03:15:37     AIPS                while (j<9)
   3    2   28-FEB-2009  03:15:37     AIPS                  keyword='CTYPE'!!char(j);gethead;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS                  if (keystrng='FREQ') then
   3    2   28-FEB-2009  03:15:37     AIPS                    keyword='NAXIS'!!char(j);gethead;echan=keyvalue(1);j=9
   3    2   28-FEB-2009  03:15:37     AIPS                  else;j=j+1;end
   3    2   28-FEB-2009  03:15:37     AIPS                end;bchan=floor(echan/10);echan=ceil(echan*9/10)
   3    2   28-FEB-2009  03:15:37     AIPS                if (bchan=1) then;bchan=2;end;j=k
   3    2   28-FEB-2009  03:15:37     AIPS                  for k=1:j;bif=k;eif=k;if ((lstarg>0)!(lsparm(9)>1)) then;go;end
   3    2   28-FEB-2009  03:15:37     AIPS              end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            else
   3    2   28-FEB-2009  03:15:37     AIPS              bif=1;eif=keyvalue(1);vput;out2disk=indisk
   3    2   28-FEB-2009  03:15:37     AIPS              if ( (lsparm(10)=0) ! ((lsparm(9)<1)&(lstarg<1)) )then;go;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS              else
   3    2   28-FEB-2009  03:15:37     AIPS                solint=lsparm(2);dotv=1;nmaps=lsparm(10);refant=lsrant;aparm=4,0
   3    2   28-FEB-2009  03:15:37     AIPS                if (lsparm(10)<0) then;dotv=-1;nmaps=-1*nmaps;end;go scimg;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            end;end;boxfile=setboxfle;delboxfle;vput imagr
   3    2   28-FEB-2009  03:15:37     AIPS      $ make uv and visibility plot
   3    2   28-FEB-2009  03:15:37     AIPS            task'UVPLT';ltype=-3;bparm 6,7;dotv -1;goplt;bparm 9,10;goplt;bparm 0
   3    2   28-FEB-2009  03:15:37     AIPS            goplt;vget imagr;inclass'IMAGR';inseq=0;intype'UV';indisk=lsdisk;allzap
   3    2   28-FEB-2009  03:15:37     AIPS      $      inclass'SCIMG';allzap
   3    2   28-FEB-2009  03:15:37     AIPS            inclass'IBM*';intype'MA';allzap
   3    2   28-FEB-2009  03:15:37     AIPS            inclass'RBM*';allzap;inclass'LBM*';allzap;recat;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          else;type '   NO UV-FILE, SKIPPING SOURCE :'!!inname!!'  =#'!!char(i)
   3    2   28-FEB-2009  03:15:37     AIPS        end;end;dowait=false;vnum=0
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure avlapipe
   3    2   28-FEB-2009  03:15:37     AIPS        tput avlapipe;vnum=33;vput avlapipe;pipeinpt;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if (lserr <> 0) then; type '*** ERROR - ARE ALL INPUTS/NAMES SET PROPERLY ?'
   3    2   28-FEB-2009  03:15:37     AIPS        else;lsclrcal;tint=guesintt;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if (tint > 0) then;calpipe(lsdisk,lsname,lsrant);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            if (lsparm(1)>0) then;imapipe(1,lsdisk,lsname)
   3    2   28-FEB-2009  03:15:37     AIPS            else;type'CALIBRATION DONE - SKIPPING SPLIT AND IMAGING'
   3    2   28-FEB-2009  03:15:37     AIPS              type'-----------------------------------------------------------'
   3    2   28-FEB-2009  03:15:37     AIPS            end;type ' '
   3    2   28-FEB-2009  03:15:37     AIPS            if (lsplot>0) then;type 'VIEW CAL-PLOTS WITH GETSET;ALLPLOT';end;type ' '
   3    2   28-FEB-2009  03:15:37     AIPS          else;type '* * *';type 'SINGLE DISH VLBI EXPERIMENT?';type '* * *';end
   3    2   28-FEB-2009  03:15:37     AIPS        end;tget avlapipe;vnum=0;type'* APPEARS TO HAVE ENDED SUCCESSFULLY *';clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    0   28-FEB-2009  03:15:37     AIPS      run nvasdefs
   3    2   28-FEB-2009  03:15:37     AIPS      Found in Version=ABIN
   3    2   28-FEB-2009  03:15:37     AIPS      default'AVLAPIPE'
   3    2   28-FEB-2009  03:15:37     AIPS      Found in Version=ABIN
   3    2   28-FEB-2009  03:15:37     AIPS      indisk   1;  doalign -1;  flagver  2;  domodel  1
   3    2   28-FEB-2009  03:15:37     AIPS      docal    1;  sources '*'''
   3    2   28-FEB-2009  03:15:37     AIPS      $ to be set by itself later
   3    2   28-FEB-2009  03:15:37     AIPS      solint   1;  factor   5;  doarray -1;  imsize  -1
   3    2   28-FEB-2009  03:15:37     AIPS      $imsize 512;$niter -1;cutoff -1;plver 0
   3    2   28-FEB-2009  03:15:37     AIPS      niter   -1;  cutoff  -1
   3    2   28-FEB-2009  03:15:37     AIPS      $ for now debugging
   3    2   28-FEB-2009  03:15:37     AIPS      docont   1;  plver    0;  doall    1;  doresid  0
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      $ defaults
   3    2   28-FEB-2009  03:15:37     AIPS      $ BADDISK 0$ INDISK 0$ DOCAT 1$ INNAME ' '$ INCLASS ' '$ INSEQ 0
   3    2   28-FEB-2009  03:15:37     AIPS      $ DOALIGN 1$ FLAgver 0$ SOLINT 0$ FACTOR 0$ REFANT 0$ DOMODEL -1
   3    2   28-FEB-2009  03:15:37     AIPS      $ KEYSTRNG ' '$ FLUX 0$ UVRANGE 0, 0$ SOURCES ' '$ CALSOUR ' '
   3    2   28-FEB-2009  03:15:37     AIPS      $ dopol 0$ bpa 0$ DOCONT 1$ PLVER 0$ DOALL -1$ DOARRAY -1
   3    2   28-FEB-2009  03:15:37     AIPS      $ IMSIZE 0, 0$ NITER 0$ CUTOFF 0$ DOCAL 0$ DORESID -1
   3    0   28-FEB-2009  03:15:37     AIPS      compress
   3    0   28-FEB-2009  03:15:37     AIPS      default prtmsg;outprint'ARUN:'!!'AM0308_1990JUL15_1.1.log
   3    0   28-FEB-2009  03:15:37     AIPS      docrt=-3;prnumber=-1;tput prtmsg;docrt 1
   3    0   28-FEB-2009  03:15:37     AIPS      procedure expid
   3    0   28-FEB-2009  03:15:37     AIPS        string*20 expnm
   3    0   28-FEB-2009  03:15:37     AIPS        string*75 expmsg
   3    0   28-FEB-2009  03:15:37     AIPS        expnm='AM0308_1990JUL15_1'
   3    0   28-FEB-2009  03:15:37     AIPS        expmsg='ARUN:'!!'AM0308_1990JUL15_1.1.log
   3    0   28-FEB-2009  03:15:37     AIPS        return expnm
   3    0   28-FEB-2009  03:15:37     AIPS      finish
   3    0   28-FEB-2009  03:15:37     AIPS      type expid
   3    5   28-FEB-2009  03:15:37     AIPS      'AM0308_1990JUL15_1'
   3    0   28-FEB-2009  03:15:37     AIPS
   3    0   28-FEB-2009  03:15:37     AIPS      docrt=1;type expid
   3    5   28-FEB-2009  03:15:37     AIPS      'AM0308_1990JUL15_1'
   3    0   28-FEB-2009  03:15:37     AIPS      run avlapost
   3    2   28-FEB-2009  03:15:37     AIPS      Found in Version=ABIN
   3    2   28-FEB-2009  03:15:37     AIPS      $ Lorant Sjouwerman, versions 1.. 2005, for NRAO
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      $$ General catalog looks like
   3    2   28-FEB-2009  03:15:37     AIPS      $$ Multi-source UV data file
   3    2   28-FEB-2009  03:15:37     AIPS      $$ Multi-source TASAV file
   3    2   28-FEB-2009  03:15:37     AIPS      $$ Single-source calibrated data  - auvf
   3    2   28-FEB-2009  03:15:37     AIPS      $$ Single-source calibrated images- aimg
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      $May need to redefine after a restore 0:
   3    2   28-FEB-2009  03:15:37     AIPS      $allzap
   3    2   28-FEB-2009  03:15:37     AIPS      $calcintt
   3    2   28-FEB-2009  03:15:37     AIPS      $guesintt
   3    2   28-FEB-2009  03:15:37     AIPS      $lsparm(5);tint;lsdisk
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure nvascln
   3    2   28-FEB-2009  03:15:37     AIPS        scalar alj,uvj, maj
   3    2   28-FEB-2009  03:15:37     AIPS        clrname;indisk lsdisk;recat;chkname;alj=1-error;getname 1;inname''
   3    2   28-FEB-2009  03:15:37     AIPS        chkname;uvj=-error;intype'MA';inclass'NVAS08';chkname;maj=1-error
   3    2   28-FEB-2009  03:15:37     AIPS        if((uvj=maj)&(uvj>0))then $count down in unlikely case of crash (status R/W)
   3    2   28-FEB-2009  03:15:37     AIPS          type'CLEANUP SSRC, ALL:',maj,alj;for j=alj:1 by -1;egetn j;zap;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        else;type 'EXPECTED MA-FILES DO NOT MATCH UV-FILES; NO CLEANUP !';end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure flatfov
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - compile flatn-ed radius blank-ed images out to where pbcorr=2.5 (=xpb)
   3    2   28-FEB-2009  03:15:37     AIPS        scalar uvi,mai,fov,frq,kk,tbw,tint,xpb,xcst,nif,fbw,fta;xpb=2.5
   3    2   28-FEB-2009  03:15:37     AIPS        string*4 cootype
   3    2   28-FEB-2009  03:15:37     AIPS        clrname;indisk=lsdisk;intype'UV';chkname;uvi=1-error
   3    2   28-FEB-2009  03:15:37     AIPS        if(uvi<3)then;type'ERROR: NO FILES PROCESSED !';else
   3    2   28-FEB-2009  03:15:37     AIPS          if(uvi<4)then;type'WARNING: ONLY ONE UV-FILE - MAYBE CHECK?';end
   3    2   28-FEB-2009  03:15:37     AIPS          egetname 1;tint=guesintt;kk=1
   3    2   28-FEB-2009  03:15:37     AIPS          xcst=sqrt((3/ln(2))*(xpb)/(xpb+1)); $ bit more field for BW/TA: xpb+1
   3    2   28-FEB-2009  03:15:37     AIPS          while (kk<7)
   3    2   28-FEB-2009  03:15:37     AIPS            keyvalue=0;keystrng'';keyword='CTYPE'!!char(kk);gethead
   3    2   28-FEB-2009  03:15:37     AIPS            if(substr(keystrng,1,2)='IF')then;keyword='NAXIS'!!char(kk)
   3    2   28-FEB-2009  03:15:37     AIPS              keystrng'';gethead;nif=keyvalue(1);kk=10;else;kk=kk+1;end;end;kk=1
   3    2   28-FEB-2009  03:15:37     AIPS          while (kk<7)
   3    2   28-FEB-2009  03:15:37     AIPS            keyvalue=0;keystrng'';keyword='CTYPE'!!char(kk);gethead
   3    2   28-FEB-2009  03:15:37     AIPS            if(substr(keystrng,1,4)='FREQ')then;keyword='CRVAL'!!char(kk)
   3    2   28-FEB-2009  03:15:37     AIPS              keystrng'';gethead;frq=keyvalue(1);kk=10;else;kk=kk+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS          for i=3:uvi;egetname i
   3    2   28-FEB-2009  03:15:37     AIPS            task'TABGET';inext'FQ';invers 1;keyword'NUM ROW';keystrng'';getthead
   3    2   28-FEB-2009  03:15:37     AIPS            kk=keyvalue(1);for j=1:kk;pixxy=j,4,1;tabget;tbw=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS              if(nif=2)then;pixxy=j,4,2;tabget;tbw=max(tbw,keyvalue(1));end
   3    2   28-FEB-2009  03:15:37     AIPS            end;intype'MA';inseq=0;inclass'*001';chkname;mai=1-error
   3    2   28-FEB-2009  03:15:37     AIPS            if(mai>1)then;type'WARNING: MULTIPLE IMAGES - CHECK?';end;inclass'NVAS08'
   3    2   28-FEB-2009  03:15:37     AIPS            chkname;if(error<1)then;type inname!!' : FLATFOV ALREADY DONE';mai=0;end
   3    2   28-FEB-2009  03:15:37     AIPS            if (mai=1) then;inclass'*001'
   3    2   28-FEB-2009  03:15:37     AIPS              for j=1:mai $ assume inseq starts at 1..
   3    2   28-FEB-2009  03:15:37     AIPS                inseq=j;kk=1;cellsize=0;userid=0
   3    2   28-FEB-2009  03:15:37     AIPS                while (kk<5)
   3    2   28-FEB-2009  03:15:37     AIPS                  keyvalue=0;keystrng'';keyword='CTYPE'!!char(kk);gethead
   3    2   28-FEB-2009  03:15:37     AIPS                  keyword='CDELT'!!char(kk);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS              if(substr(keystrng,1,3)='RA-')then;gethead;cellsize(1)=keyvalue(1);end
   3    2   28-FEB-2009  03:15:37     AIPS              if(substr(keystrng,1,4)='DEC-')then;gethead;cellsize(2)=keyvalue(1);end
   3    2   28-FEB-2009  03:15:37     AIPS              if(substr(keystrng,1,4)='FREQ')then;keyword='CRVAL'!!char(kk)
   3    2   28-FEB-2009  03:15:37     AIPS                    keystrng'';gethead;fov=keyvalue(1)/1e9;fov=1350/fov;end;kk=kk+1
   3    2   28-FEB-2009  03:15:37     AIPS                end;cellsize(1)=-1*cellsize(1)*3600;cellsize(2)=cellsize(2)*3600
   3    2   28-FEB-2009  03:15:37     AIPS                fta=min(1.75e10/(frq*abs(lsparm(5))),(min(cellsize(1),cellsize(2))))
   3    2   28-FEB-2009  03:15:37     AIPS              fbw=xcst*3*fta*frq/tbw               $ radius field/view due bandwidth
   3    2   28-FEB-2009  03:15:37     AIPS              fta=xcst*3*fta/(tint*7.2722e-5)      $ radius field/view due averaging
   3    2   28-FEB-2009  03:15:37     AIPS                fov=min(fov,fbw);fov=min(fov,fta)    $ min field/view radius, arcsec
   3    2   28-FEB-2009  03:15:37     AIPS                imsize(1)=ceil(2*fov/cellsize(1));imsize(2)=ceil(2*fov/cellsize(2))
   3    2   28-FEB-2009  03:15:37     AIPS                task'FLATN';inclass'?CL*';chkname;nfield=1-error;nmaps=1;clroname
   3    2   28-FEB-2009  03:15:37     AIPS                outname=inname;coordina=0;reweight=0;doweight=0;edgskp=15;aparm=0
   3    2   28-FEB-2009  03:15:37     AIPS                pbparm=1/xpb,0;type'MINIMUM FOV :'!!char(fov)!!' ARCSEC RADIUS'
   3    2   28-FEB-2009  03:15:37     AIPS                inclass'?CL001';gx
   3    2   28-FEB-2009  03:15:37     AIPS      $inclass'?CL*';allzap;recat
   3    2   28-FEB-2009  03:15:37     AIPS      ;inclass'FLATN'
   3    2   28-FEB-2009  03:15:37     AIPS                tput;default blank;tget flatn;task'BLANK';opcode'RADI';dparm fov,0
   3    2   28-FEB-2009  03:15:37     AIPS                gx;allzap;recat
   3    2   28-FEB-2009  03:15:37     AIPS        end;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure nvasimage
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - Determine noise, do primary beam correction, include copyright
   3    2   28-FEB-2009  03:15:37     AIPS        scalar numfle,ll,mm
   3    2   28-FEB-2009  03:15:37     AIPS        string*20 expnm
   3    2   28-FEB-2009  03:15:37     AIPS        if(expnm='')then;tget fillm;ll=length(infile);expnm=substr(infile,6,ll-1);end
   3    2   28-FEB-2009  03:15:37     AIPS        clrname;indisk=lsdisk;recat;chkname;numfle=1-error;mai=0
   3    2   28-FEB-2009  03:15:37     AIPS        while((mai<numfle)&(inclass<>'BLANK'))
   3    2   28-FEB-2009  03:15:37     AIPS          mai=mai+1;egetname mai;end;if(inclass<>'BLANK')then;mai=numfle+1;end
   3    2   28-FEB-2009  03:15:37     AIPS        for j=mai:numfle;default imean;docat=1;intype'SC';egetname j;chkname
   3    2   28-FEB-2009  03:15:37     AIPS          if(error=0)then;keyvalue=0;keystrng'';keyword='CRPIX1';gethead
   3    2   28-FEB-2009  03:15:37     AIPS          ll=keyvalue(1);keyword='CRPIX2';gethead;mm=keyvalue(1);doinvers=1
   3    2   28-FEB-2009  03:15:37     AIPS          blc(1)=ll-29;blc(2)=mm-30;trc(1)=ll+30;trc(2)=mm+29;imstat;doinv=-1
   3    2   28-FEB-2009  03:15:37     AIPS          blc=0;trc=0;rms=pixstd;go;wa;if(pixstd=rms)then;keyword'ACTNOISE'
   3    2   28-FEB-2009  03:15:37     AIPS          keytype'R';keyvalue=rms,0;puthead;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        default'PBCOR';indisk=lsdisk;inclass'BLANK';chkname;pbparm=1/xpb,0
   3    2   28-FEB-2009  03:15:37     AIPS        for j=mai:numfle
   3    2   28-FEB-2009  03:15:37     AIPS          intype'SC';egetname mai;chkname;if(error=0)then;getoname mai
   3    2   28-FEB-2009  03:15:37     AIPS          outclass'RADCOR';outseq=0;inclass'BLANK';outdisk=indisk;gx;zap;recat;end
   3    2   28-FEB-2009  03:15:37     AIPS        end;default'CPYRT';indisk=lsdisk;recat;infile='AVLA:Arch_Cprt
   3    2   28-FEB-2009  03:15:37     AIPS        for j=mai:numfle $ can only do on MA files
   3    2   28-FEB-2009  03:15:37     AIPS          intype'SC';egetname mai;chkname;getoname mai;outclass'NVAS08'
   3    2   28-FEB-2009  03:15:37     AIPS          if(inclass='RADCOR')then;gx;inclass'RADCOR';zap;recat;end;end
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure mkarr
   3    2   28-FEB-2009  03:15:37     AIPS        string*1 sx,lx,az
   3    2   28-FEB-2009  03:15:37     AIPS        string*4 nnsl
   3    2   28-FEB-2009  03:15:37     AIPS        scalar aw, ae, an, ai
   3    2   28-FEB-2009  03:15:37     AIPS        numbant=0;aw=0;ae=0;an=0
   3    2   28-FEB-2009  03:15:37     AIPS        keyword'NUM ROW';inext'AN';invers=0;getthead;k=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS        for j=1:k
   3    2   28-FEB-2009  03:15:37     AIPS          pixxy=j,1,0;tabget;i=1;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          while((substr(keystrng,i,i)<>':')&(i<9));i=i+1;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if ((substr(keystrng,i+1,i+1)<>' ')&(substr(keystrng,i+1,i+1)<>'_'))then
   3    2   28-FEB-2009  03:15:37     AIPS            lsvla=substr(keystrng,i+1,i+3);else;lsvla=substr(keystrng,i+2,i+4);end
   3    2   28-FEB-2009  03:15:37     AIPS          az=substr(lsvla,1,1)
   3    2   28-FEB-2009  03:15:37     AIPS          if ((lsvla<>'OUT')&(lsvla<>'MPD'))then;numbant=numbant+1
   3    2   28-FEB-2009  03:15:37     AIPS            if (lsvla='VPT')then;ai=75;lx='P';else;ai=value(substr(lsvla,2,3))
   3    2   28-FEB-2009  03:15:37     AIPS              if(az='W')then;aw=max(aw,ai);else;if(az='E')then;ae=max(ae,ai);else
   3    2   28-FEB-2009  03:15:37     AIPS                  if(az='N')then;an=max(an,ai);else;if(lx<>'P')then
   3    2   28-FEB-2009  03:15:37     AIPS                      type lsvla!!' - ERROR: ANTENNA NOT KNOWN';end;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        clrtemp;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        if (lx<>'P')then;ai=max(aw,ae);ai=max(ai,an);lx='D';if(ai>36)then;lx='A'
   3    2   28-FEB-2009  03:15:37     AIPS            else;if(ai>18)then;lx='B';else;if(ai>9)then;lx='C';end;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        ai=min(aw,ae);ai=min(ai,an);sx='A';if(ai<10)then;sx='D';else;if(ai<19)then
   3    2   28-FEB-2009  03:15:37     AIPS              sx='C';else;if(ai<37)then;sx='B';end;end;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        if(numbant<10)then
   3    2   28-FEB-2009  03:15:37     AIPS          nnsl='0'!!char(numbant)!!sx!!lx;else;nnsl=char(numbant)!!sx!!lx;end
   3    2   28-FEB-2009  03:15:37     AIPS        return nnsl
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure nvasname
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - makes the RA/Dec directory and returns the archive file name
   3    2   28-FEB-2009  03:15:37     AIPS        scalar ki,ra1,ra2,dc1,dc2,rh,rm,rs,dd,dm,ds,rmsv,sbmv
   3    2   28-FEB-2009  03:15:37     AIPS        scalar ifx,nif,nu,nu1,nu2,bw,nst,stv,msuv1,msuv2,msuv
   3    2   28-FEB-2009  03:15:37     AIPS        string*1 pm,rmsc,stc,ik,rdi
   3    2   28-FEB-2009  03:15:37     AIPS        string*2 zz
   3    2   28-FEB-2009  03:15:37     AIPS        string*3 mmm
   3    2   28-FEB-2009  03:15:37     AIPS        string*4 rmss,sbms,fras,frqs,nnsl,rads
   3    2   28-FEB-2009  03:15:37     AIPS        string*30 dir
   3    2   28-FEB-2009  03:15:37     AIPS        string*20 expnm
   3    2   28-FEB-2009  03:15:37     AIPS      $  expnm = ''
   3    2   28-FEB-2009  03:15:37     AIPS        if(expnm='')then
   3    2   28-FEB-2009  03:15:37     AIPS          keyword'OBSERVER';gethead;expnm=keystrng;keyword'DATE-OBS';gethead
   3    2   28-FEB-2009  03:15:37     AIPS          mmm=substr(keystrng,5,6)
   3    2   28-FEB-2009  03:15:37     AIPS          if(mmm='01')then;mmm='JAN';end;if(mmm='02')then;mmm='FEB';end
   3    2   28-FEB-2009  03:15:37     AIPS          if(mmm='03')then;mmm='MAR';end;if(mmm='04')then;mmm='APR';end
   3    2   28-FEB-2009  03:15:37     AIPS          if(mmm='05')then;mmm='MAY';end;if(mmm='06')then;mmm='JUN';end
   3    2   28-FEB-2009  03:15:37     AIPS          if(mmm='07')then;mmm='JUL';end;if(mmm='08')then;mmm='AUG';end
   3    2   28-FEB-2009  03:15:37     AIPS          if(mmm='09')then;mmm='SEP';end;if(mmm='10')then;mmm='OCT';end
   3    2   28-FEB-2009  03:15:37     AIPS          if(mmm='11')then;mmm='NOV';end;if(mmm='12')then;mmm='DEC';end
   3    2   28-FEB-2009  03:15:37     AIPS          expnm=expnm!!'_'!!substr(keystrng,1,4)!!mmm!!substr(keystrng,7,8)!!'_1'
   3    2   28-FEB-2009  03:15:37     AIPS        end;ki=1;userid=0
   3    2   28-FEB-2009  03:15:37     AIPS        while (ki<9)
   3    2   28-FEB-2009  03:15:37     AIPS          ik=char(ki);keyvalue=0;keystrng'';keyword='CTYPE'!!ik;gethead;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(keystrng,1,2)='RA')then
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='CRVAL'!!ik;gethead;ra1=keyvalue(1);ra2=keyvalue(2);msuv1=ra1+ra2
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='CDELT'!!ik;gethead;cellsize(1)=-1*keyvalue(1)*3600;ra1=ra1/15
   3    2   28-FEB-2009  03:15:37     AIPS            ra2=ra2/15;rh=floor(ra1);ra1=(ra1-rh)*60;rm=floor(ra1);ra1=(ra1-rm)*60
   3    2   28-FEB-2009  03:15:37     AIPS            rs=((floor((ra1+(3600*ra2))*1000)+0.005)/1000);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            if(abs(rs-floor(abs(rs)))<0.1)then;rs=0;zz='.0';else;zz='';end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='NAXIS'!!ik;gethead;ra1=0.5*keyvalue(1)*cellsize(1);end
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(keystrng,1,3)='DEC')then
   3    2   28-FEB-2009  03:15:37     AIPS           keyword='CRVAL'!!ik;gethead;dc1=keyvalue(1);dc2=keyvalue(2);msuv1=dc1+dc2
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='CDELT'!!ik;gethead;cellsize(2)=keyvalue(1)*3600
   3    2   28-FEB-2009  03:15:37     AIPS            if(dc1<0)then;pm='-';dc1=-1*dc1;dc2=-1*dc2;else;pm='+';end
   3    2   28-FEB-2009  03:15:37     AIPS            dd=floor(dc1);dc1=(dc1-dd)*60;dm=floor(dc1);dc1=(dc1-dm)*60
   3    2   28-FEB-2009  03:15:37     AIPS            ds=floor(dc1+(3600*dc2)+0.0005);clrtemp;keyword='NAXIS'!!ik
   3    2   28-FEB-2009  03:15:37     AIPS            gethead;dc1=0.5*(keyvalue(1)-10)*cellsize(2);end $ie correct for (c)-top
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(keystrng,1,2)='IF')then
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='NAXIS'!!ik;gethead;nif=keyvalue(1);clrtemp;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(keystrng,1,4)='FREQ')then
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='CRVAL'!!ik;gethead;nu1=keyvalue(1)/1e6;nu2=keyvalue(2)/1e6
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='CDELT'!!ik;gethead;bw=keyvalue(1)/1e6;end;nu=(nu1+nu2);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(keystrng,1,6)='STOKES')then
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='CRVAL'!!ik;gethead;stv=keyvalue(1)
   3    2   28-FEB-2009  03:15:37     AIPS            keyword='NAXIS'!!ik;gethead;nst=keyvalue(1);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS            if(nst=4)then;stc='F';else;if(nst=2)then;stc='H';else;if(stv=-1)then
   3    2   28-FEB-2009  03:15:37     AIPS                  stc='R';else;if(stv=-2)then;stc='L';else;if(stv=-5)then;stc='X'
   3    2   28-FEB-2009  03:15:37     AIPS                    else;if(stv=-6)then;stc='Y';else;if(stv >0)then;stc='I';else
   3    2   28-FEB-2009  03:15:37     AIPS                          stc='U';end;end;end;end;end;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS          if(substr(keystrng,1,1)='')then;ki=10;else;ki=ki+1;end
   3    2   28-FEB-2009  03:15:37     AIPS        end;clrtemp $ build the output file name here
   3    2   28-FEB-2009  03:15:37     AIPS        if(intype='UV')then;nu1=0;nu2=0;clrtemp;inext'FQ';for ifx=1:nif
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy=1,2,ifx;tabget;nu1=nu1+((keyvalue(1)+keyvalue(2))/1e6)
   3    2   28-FEB-2009  03:15:37     AIPS            pixxy=1,3,ifx;tabget;nu2=nu2+((keyvalue(1)+keyvalue(2))/1e6);end
   3    2   28-FEB-2009  03:15:37     AIPS          nu=nu+0.5*(nu1+(0.5*nu2));clrtemp;else;if(intype='MA')then
   3    2   28-FEB-2009  03:15:37     AIPS            fras=substr(char(0.5*(ra1+dc1)),1,4);nu=nu+(bw/(2*nif));else
   3    2   28-FEB-2009  03:15:37     AIPS            type 'ERROR: FILE TYPE UNKNOWN (HOW DID THIS HAPPEN?)';end;end
   3    2   28-FEB-2009  03:15:37     AIPS        frqs=substr(char((nu+5)/1000),1,4);clrtemp;sys2com(1)=' $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS        if (intype='MA')then; $read conv size,rms from header, use imsi*cell/2 for R
   3    2   28-FEB-2009  03:15:37     AIPS         rdi='S';ra2=0.5*(ra1+dc1-9);if(ra2>60)then;rdi='M';ra2=ra2/60;end $ R-fov
   3    2   28-FEB-2009  03:15:37     AIPS          if(ra2>60)then;rdi='D';ra2=ra2/60;end;rads=substr(char(ra2),1,4)
   3    2   28-FEB-2009  03:15:37     AIPS          keyword='BMAJ';gethead;sbmv=keyvalue(1);keyword='BMIN';gethead
   3    2   28-FEB-2009  03:15:37     AIPS          sbmv=1800*(sbmv+keyvalue(1));sbms=substr(char(sbmv),1,4)
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS         keyvalue=0;keystrng'';keyword='ACTNOISE';gethead;rmsv=keyvalue(1) $ RMS<1e4
   3    2   28-FEB-2009  03:15:37     AIPS          if(rmsv>1)then;rmsc='J';rmss=substr(char(rmsv),1,4);else;rmsv=rmsv*1000
   3    2   28-FEB-2009  03:15:37     AIPS            if(rmsv>1)then;rmsc='M';rmss=substr(char(rmsv),1,4);else;rmsv=rmsv*1000
   3    2   28-FEB-2009  03:15:37     AIPS              if(rmsv>1)then;rmsc='U';rmss=substr(char(rmsv),1,4);else
   3    2   28-FEB-2009  03:15:37     AIPS                rmsv=rmsv*1000;rmsc='N';rmss=substr(char(rmsv),1,4)
   3    2   28-FEB-2009  03:15:37     AIPS          end;end;end;clrtemp;fras='';while(length(frqs)<4);frqs=frqs!!'0';end
   3    2   28-FEB-2009  03:15:37     AIPS          while(length(rads)<4);rads=rads!!'0';end;while(length(rmss)<4)
   3    2   28-FEB-2009  03:15:37     AIPS            rmss=rmss!!'0';end;while(length(sbms)<4);sbms=sbms!!'0';end
   3    2   28-FEB-2009  03:15:37     AIPS          outfile=frqs!!stc!!sbms!!'_'!!expnm!!'_'!!rmss!!rmsc!!fras!!rads!!rdi
   3    2   28-FEB-2009  03:15:37     AIPS        else;outprint=frqs!!stc!!nnsl!!'_'!!expnm;outfile=outprint!!'.uvfits
   3    2   28-FEB-2009  03:15:37     AIPS        end
   3    2   28-FEB-2009  03:15:37     AIPS        msuv=(sqrt((msuv1*msuv1)+(msuv2*msuv2)))*3600
   3    2   28-FEB-2009  03:15:37     AIPS        if(msuv>5)then $ not multisource UV, make a source dir
   3    2   28-FEB-2009  03:15:37     AIPS          dir='';sysout'';syscom'umask 0;mkdir
   3    2   28-FEB-2009  03:15:37     AIPS          if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end
   3    2   28-FEB-2009  03:15:37     AIPS          if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(rm);end
   3    2   28-FEB-2009  03:15:37     AIPS         if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=char(rs)!!zz;end
   3    2   28-FEB-2009  03:15:37     AIPS          sys2com(4)=substr(sys2com(4),1,4);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS         if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm!!char(dd);end
   3    2   28-FEB-2009  03:15:37     AIPS          if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(dm);end
   3    2   28-FEB-2009  03:15:37     AIPS          if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(ds);end
   3    2   28-FEB-2009  03:15:37     AIPS          sys2com(7)=substr(sys2com(7),1,2);clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS          sys2com(8) ' >& /dev/null
   3    2   28-FEB-2009  03:15:37     AIPS         system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir) $must be 23
   3    2   28-FEB-2009  03:15:37     AIPS          dir=substr(dir,8,ki);if(ki<>23)then;type'OOPS: WRONG DIRECTORY NAME ?';end
   3    2   28-FEB-2009  03:15:37     AIPS        end;syscom'';sys2com'';clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS        return
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure nvasarch
   3    2   28-FEB-2009  03:15:37     AIPS      $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT/$AIMG/$AUVF)
   3    2   28-FEB-2009  03:15:37     AIPS        string*4 nnsl
   3    2   28-FEB-2009  03:15:37     AIPS        string*20 expnm
   3    2   28-FEB-2009  03:15:37     AIPS        string*64 expfile
   3    2   28-FEB-2009  03:15:37     AIPS        scalar nn,mai,uvi,xe,nif
   3    2   28-FEB-2009  03:15:37     AIPS        clrname;indisk=lsdisk;chkname;numfle=1-error;intype'UV';chkname;uvi=1-error
   3    2   28-FEB-2009  03:15:37     AIPS        default fitab;indisk=lsdisk;recat;douvcomp=-1;nif=2;type expid
   3    2   28-FEB-2009  03:15:37     AIPS      $2IF IM, or reset in uv#1
   3    2   28-FEB-2009  03:15:37     AIPS        if(numfle>3)then $ at least 1UVF, 1TSV, 1SS, 1MA
   3    2   28-FEB-2009  03:15:37     AIPS          egetname 1;nnsl=mkarr;nvasname;i=1;clrtemp;syscom'umask 0;mkdir
   3    2   28-FEB-2009  03:15:37     AIPS          while((substr(expnm,i,i)<>'_')&(i<21));i=i+1;end;dir=substr(expnm,1,i-1)
   3    2   28-FEB-2009  03:15:37     AIPS         outfile='ADAT:'!!expnm!!'_'!!frqs!!stc!!nnsl!!'.uvfits
   3    2   28-FEB-2009  03:15:37     AIPS          sysout'';sys2com'';sys2com(2) ' >& /dev/null
   3    2   28-FEB-2009  03:15:37     AIPS         sys2com(1)' $ADAT/'!!dir;system;gx;clrtemp;egetname 2;clrtemp;syscom'\mv -f
   3    2   28-FEB-2009  03:15:37     AIPS          outfile='ADAT:'!!expnm!!'_'!!frqs!!stc!!nnsl!!'.clfits
   3    2   28-FEB-2009  03:15:37     AIPS          gx;sys2com(1)' $ADAT/'!!expnm!!'_* $ADAT/'!!dir;system
   3    2   28-FEB-2009  03:15:37     AIPS          sys2com(1)' $ADAT/'!!expnm!!'.* $ADAT/'!!dir
   3    2   28-FEB-2009  03:15:37     AIPS      $system
   3    2   28-FEB-2009  03:15:37     AIPS          sys2com(1)' $ARUN/'!!expnm!!'.* $ADAT/'!!dir
   3    2   28-FEB-2009  03:15:37     AIPS      $system
   3    2   28-FEB-2009  03:15:37     AIPS      j=2;mai=0
   3    2   28-FEB-2009  03:15:37     AIPS        while(j<numfle)
   3    2   28-FEB-2009  03:15:37     AIPS            j=j+1;egetname j;if(intype='MA')then;mai=j;j=numfle+1;end;end
   3    2   28-FEB-2009  03:15:37     AIPS            uvi=mai-1;for nn=3:uvi;egetname nn;chkname; $ archive calibrated UV file
   3    2   28-FEB-2009  03:15:37     AIPS            xe=1-error;nvasname;sysout'';sys2com'';sys2com(3) ' >& /dev/null
   3    2   28-FEB-2009  03:15:37     AIPS            outfile='AIMG:'!!outfile;dparm(5)=1;if(xe=1)then;gx
   3    2   28-FEB-2009  03:15:37     AIPS            if(numtab('PL')<1)then;type'NO UV PLOTS';else;if (numtab('PL')<2) then
   3    2   28-FEB-2009  03:15:37     AIPS              type'SINGLE PLOT, ASSUMING UV COVERAGE'
   3    2   28-FEB-2009  03:15:37     AIPS              else;if(numtab('PL')>2)then;plver=3;outfile='AIMG:'!!outprint!!'.vis.ps
   3    2   28-FEB-2009  03:15:37     AIPS                go lwpla;wait lwpla;syscom'convert $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS                sys2com(1)=outprint!!'.vis.ps $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS                sys2com(2)=outprint!!'.vis.gif
   3    2   28-FEB-2009  03:15:37     AIPS              system;end;plver=2;outfile='AIMG:'!!outprint!!'.ri.ps
   3    2   28-FEB-2009  03:15:37     AIPS                go lwpla;wait lwpla;syscom'convert $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS                sys2com(1)=outprint!!'.ri.ps $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS                sys2com(2)=outprint!!'.ri.gif
   3    2   28-FEB-2009  03:15:37     AIPS              system;end;plver=1;outfile='AIMG:'!!outprint!!'.uv.ps
   3    2   28-FEB-2009  03:15:37     AIPS            go lwpla;wait lwpla;dparm(5)=0;sys2com(1)=outprint!!'.uv.ps $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS            sys2com(2)=outprint!!'.uv.gif
   3    2   28-FEB-2009  03:15:37     AIPS            system;sys2com(2)='';syscom'chmod 666 $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS      $      sys2com(1)=outprint!!'.*.ps
   3    2   28-FEB-2009  03:15:37     AIPS      $      system;sys2com(1)=outprint!!'.*.gif
   3    2   28-FEB-2009  03:15:37     AIPS      $      system;sys2com(1)=outprint!!'.uvfits
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(1)=outprint!!'*
   3    2   28-FEB-2009  03:15:37     AIPS            system;end;end;clrtemp;syscom'\mv -f $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS      $      sys2com(1)=substr(outfile,6,length(outfile))!!' $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS            sys2com(1)=outprint!!'.* $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS            sys2com(2)=dir;system;clrtemp;end;for nn=(uvi+1):numfle $ archive MAps
   3    2   28-FEB-2009  03:15:37     AIPS            egetname nn;chkname;xe=1-error;if((intype='MA')&(inclass='NVAS08'))then
   3    2   28-FEB-2009  03:15:37     AIPS            nvasname;sysout'';sys2com'';sys2com(8)' >& /dev/null
   3    2   28-FEB-2009  03:15:37     AIPS            expfile=outfile;outfile='AIMG:'!!outfile
   3    2   28-FEB-2009  03:15:37     AIPS            if(xe=1)then;gx;syscom'umask 0;\mv -f $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(1)=expfile!!'  $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(2)=expfile!!'.imfits
   3    2   28-FEB-2009  03:15:37     AIPS              system;clrtemp;syscom'umask 0;fits2jpeg -nonLinear -fits $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(1)=expfile!!'.imfits -jpeg $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(2)=expfile!!'.jpg
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(3)=' ; convert -size 150x150 $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(4)=expfile!!'.jpg
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(5)=' -resize 150x150 -gamma 1.5 -depth 32 $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(6)=expfile!!'.JPG'!!' ; \mv -f $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS              sys2com(7)=expfile!!'* $aimg/
   3    2   28-FEB-2009  03:15:37     AIPS            sys2com(8) dir!!sys2com(8);system;clrtemp;end;end;end;end
   3    2   28-FEB-2009  03:15:37     AIPS        type 'NVASARCH DONE - CLEANING UP';nvascln
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      $procedure nvas
   3    2   28-FEB-2009  03:15:37     AIPS      $  typ expid;flatfov;if(uvi>3)then;nvasimage;nvasarch;end
   3    2   28-FEB-2009  03:15:37     AIPS      $finish
   3    2   28-FEB-2009  03:15:37     AIPS
   3    2   28-FEB-2009  03:15:37     AIPS      procedure nvas
   3    2   28-FEB-2009  03:15:37     AIPS        typ expid;flatfov;if(uvi>3)then;nvasimage;end;clrtemp;clrname;indisk lsdisk
   3    2   28-FEB-2009  03:15:37     AIPS          recat;chkname;alj=1-error;getname 1;inname'';chkname;uvj=-error;intype'MA'
   3    2   28-FEB-2009  03:15:37     AIPS          inclass'NVAS08';chkname;maj=1-error;if (uvj=maj) then;nvasarch;end;clrtemp
   3    2   28-FEB-2009  03:15:37     AIPS      finish
   3    0   28-FEB-2009  03:15:37     AIPS      avlapipe
   3    2   28-FEB-2009  03:15:37     AIPS      Found in Version=ABIN
   3    2   28-FEB-2009  03:15:37     AIPS      Found in Version=ABIN
   3    2   28-FEB-2009  03:15:38     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.LBAND1.1
   3    5   28-FEB-2009  03:15:38     AIPS      'AIPS WILL CHOOSE THE REFERENCE ANTENNA'
   3    2   28-FEB-2009  03:15:38     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.LBAND1.1
   3    5   28-FEB-2009  03:15:39     AIPS      'SETFC WILL DETERMINE THE CELL SIZE'
   3    5   28-FEB-2009  03:15:41     AIPS      '8.3333 SECOND INTEGRATIONS (GUESS)'
   3    5   28-FEB-2009  03:15:41     AIPS      'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)'
   3    5   28-FEB-2009  03:15:41     QUACK     Task QUACK  (release of 31DEC07) begins
   3    4   28-FEB-2009  03:15:41     QUACK     Flagged    14.11 min. of data in    42 scans
   3    3   28-FEB-2009  03:15:41     QUACK     Appears to have ended successfully
   3    5   28-FEB-2009  03:15:41     QUACK     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  03:15:41     AIPS      Resumes
   3    5   28-FEB-2009  03:15:41     FLAGR     Task FLAGR  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:15:58     FLAGR     Copied FG file from vol/cno/vers  1    1   1 to  1    1   2
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average amp= 9.450E-01 +- 8.285E-02 source= 1328+307
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average rms= 3.091E-03 +- 5.005E-04 source= 1328+307
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average amp= 3.405E-02 +- 2.669E-03 source= 1831-126
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average rms= 2.065E-03 +- 1.993E-04 source= 1831-126
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average amp= 2.898E-03 +- 3.658E-04 source= NGC6712
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average rms= 1.341E-03 +- 1.380E-04 source= NGC6712
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average amp= 7.563E-02 +- 5.113E-03 source= 2136+141
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average rms= 1.579E-03 +- 2.040E-04 source= 2136+141
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average amp= 2.841E-03 +- 5.514E-04 source= NGC7078
   3    4   28-FEB-2009  03:17:28     FLAGR     Overall average rms= 1.240E-03 +- 1.830E-04 source= NGC7078
   3    5   28-FEB-2009  03:17:28     FLAGR     Found     9 bad times,    51 total flags
   3    5   28-FEB-2009  03:17:28     FLAGR     Wrote     2 antenna & IF independent flags
   3    5   28-FEB-2009  03:17:28     FLAGR     Wrote     7 antenna independent, IF dependent flags
   3    5   28-FEB-2009  03:17:28     FLAGR     Wrote    42 antenna & IF dependent flags
   3    5   28-FEB-2009  03:17:28     FLAGR     Wrote     0 antenna & IF dependent, all-times flags
   3    3   28-FEB-2009  03:17:28     FLAGR     Appears to have ended successfully
   3    5   28-FEB-2009  03:17:28     FLAGR     vlbacald-b   31DEC07 TST: Cpu=       9.9  Real=     107
   3    2   28-FEB-2009  03:17:28     AIPS      Resumes
   3    5   28-FEB-2009  03:17:28     SETJY     Task SETJY  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:17:28     SETJY     / Resetting flux information to zero
   3    2   28-FEB-2009  03:17:28     SETJY     BIF =  1 EIF =  2 /Range of IFs
   3    2   28-FEB-2009  03:17:28     SETJY     SOURCES = ''     /All sources selected
   3    3   28-FEB-2009  03:17:28     SETJY     Appears to have ended successfully
   3    5   28-FEB-2009  03:17:28     SETJY     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  03:17:29     AIPS      Resumes
   3    5   28-FEB-2009  03:17:29     SETJY     Task SETJY  (release of 31DEC07) begins
   3    5   28-FEB-2009  03:17:29     SETJY     A source model for this calibrator may be available
   3    5   28-FEB-2009  03:17:29     SETJY     Use the verb CALDIR to see if there is one
   3    5   28-FEB-2009  03:17:29     SETJY     A source model for this calibrator may be available
   3    5   28-FEB-2009  03:17:29     SETJY     Use the verb CALDIR to see if there is one
   3    2   28-FEB-2009  03:17:29     SETJY     / Flux calculated using known spectrum
   3    2   28-FEB-2009  03:17:29     SETJY     BIF =  1 EIF =  2 /Range of IFs
   3    2   28-FEB-2009  03:17:29     SETJY     '1328+307        ' IF =  1 FLUX =14.5108 (Jy calcd)
   3    2   28-FEB-2009  03:17:29     SETJY     '1328+307        ' IF =  2 FLUX =14.2781 (Jy calcd)
   3    2   28-FEB-2009  03:17:29     SETJY     / Using (1999.2) VLA or Reynolds (1934-638) coefficients
   3    3   28-FEB-2009  03:17:29     SETJY     Appears to have ended successfully
   3    5   28-FEB-2009  03:17:29     SETJY     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  03:17:29     AIPS      Resumes
   3    5   28-FEB-2009  03:17:29     CALIB     Task CALIB  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:17:29     CALIB     CALIB USING 19900715     . LBAND1 .   1 DISK=  1 USID=****
   3    3   28-FEB-2009  03:17:29     CALIB     L1 Solution type
   3    2   28-FEB-2009  03:17:29     CALIB     Selecting, editing and calibrating the data
   3    3   28-FEB-2009  03:17:29     CALIB     Doing cal transfer mode with point model for each source
   3    3   28-FEB-2009  03:17:29     CALIB     This is not self-calibration
   3    2   28-FEB-2009  03:17:29     CALIB     Dividing data by source flux densities
   3    2   28-FEB-2009  03:17:29     CALIB     Determining solutions
   3    3   28-FEB-2009  03:17:29     CALIB     Writing SN table    1
   3    5   28-FEB-2009  03:17:43     CALIB     Found         5702 good solutions
   3    5   28-FEB-2009  03:17:44     CALIB     Failed on       10 solutions
   3    4   28-FEB-2009  03:17:44     CALIB     Average closure rms =  0.0181 +-  0.0096
   3    4   28-FEB-2009  03:17:44     CALIB     Fraction of times having data >  2.5 rms from solution
   3    4   28-FEB-2009  03:17:44     CALIB     0.25455 of the times had  0 -  2 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:17:44     CALIB     0.60909 of the times had  2 -  4 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:17:44     CALIB     0.11818 of the times had  4 -  6 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:17:44     CALIB     0.00909 of the times had  6 -  8 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:17:44     CALIB     0.00909 of the times had 10 - 12 percent outside  2.5 times rms
   3    2   28-FEB-2009  03:17:44     CALIB     Adjusting solutions to a common reference antenna
   3    3   28-FEB-2009  03:17:46     CALIB     Appears to have ended successfully
   3    5   28-FEB-2009  03:17:46     CALIB     vlbacald-b   31DEC07 TST: Cpu=       1.2  Real=      17
   3    2   28-FEB-2009  03:17:46     AIPS      Resumes
   3    5   28-FEB-2009  03:17:47     AIPS      '1328+307 MODEL ='     '3C286_L'
   3    3   28-FEB-2009  03:17:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:17:47     AIPS      ls -1 $AIPSTARS/3C286_L.MODEL >& /dev/null
   3    5   28-FEB-2009  03:17:47     CALRD     Task CALRD  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:17:47     CALRD     Reading disk file AIPSTARS:3C286_L.MODEL
   3    2   28-FEB-2009  03:17:47     CALRD     Create 3C286_L     .MODEL .   1 (MA)  on disk  1  cno    2
   3    3   28-FEB-2009  03:17:47     CALRD     Appears to have ended successfully
   3    5   28-FEB-2009  03:17:47     CALRD     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  03:17:47     AIPS      Resumes
   3    5   28-FEB-2009  03:17:49     CALIB     Task CALIB  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:17:49     CALIB     CALIB USING 19900715     . LBAND1 .   1 DISK=  1 USID=****
   3    3   28-FEB-2009  03:17:49     CALIB     L1 Solution type
   3    2   28-FEB-2009  03:17:49     CALIB     Selecting, editing and calibrating the data
   3    3   28-FEB-2009  03:17:49     CALIB     Doing self-cal mode with CC model
   3    4   28-FEB-2009  03:17:49     CALIB     SETGDS: imaging done with reprojected tangent point(s)
   3    3   28-FEB-2009  03:17:49     CALIB     FACSET: source model will be scaled to 14.511 Jy
   3    3   28-FEB-2009  03:17:49     CALIB     FACSET: 14.915697 Jy found from 1424 components
   3    4   28-FEB-2009  03:17:49     CALIB     FACSET: scaling factor set to  9.72852E-01
   3    2   28-FEB-2009  03:17:49     CALIB     QINIT: did a GET  of   20480 Kwords, OFF        -90604149
   3    2   28-FEB-2009  03:17:49     CALIB     VISDFT: Begin DFT component division
   3    2   28-FEB-2009  03:17:49     CALIB     VISDFT: Model components of type Point
   3    3   28-FEB-2009  03:17:49     CALIB     I Polarization model processed
   3    2   28-FEB-2009  03:17:50     CALIB     Model computation is    10 percent complete
   3    2   28-FEB-2009  03:17:51     CALIB     Model computation is    20 percent complete
   3    2   28-FEB-2009  03:17:51     CALIB     Model computation is    30 percent complete
   3    2   28-FEB-2009  03:17:52     CALIB     Model computation is    50 percent complete
   3    2   28-FEB-2009  03:17:52     CALIB     Model computation is    60 percent complete
   3    2   28-FEB-2009  03:17:53     CALIB     Model computation is    70 percent complete
   3    2   28-FEB-2009  03:17:54     CALIB     Model computation is    90 percent complete
   3    3   28-FEB-2009  03:17:54     CALIB     FACSET: source model will be scaled to 14.278 Jy
   3    3   28-FEB-2009  03:17:54     CALIB     FACSET: 14.915697 Jy found from 1424 components
   3    4   28-FEB-2009  03:17:54     CALIB     FACSET: scaling factor set to  9.57251E-01
   3    2   28-FEB-2009  03:17:54     CALIB     VISDFT: Begin DFT component division
   3    3   28-FEB-2009  03:17:54     CALIB     I Polarization model processed
   3    3   28-FEB-2009  03:18:02     CALIB     Field    1 used    1424 CCs
   3    2   28-FEB-2009  03:18:02     CALIB     Determining solutions
   3    6   28-FEB-2009  03:18:02     CALIB     Deleted    364 records from SN table no.    1
   3    3   28-FEB-2009  03:18:02     CALIB     Writing SN table    1
   3    5   28-FEB-2009  03:18:02     CALIB     Found         1290 good solutions
   3    5   28-FEB-2009  03:18:02     CALIB     Failed on       10 solutions
   3    4   28-FEB-2009  03:18:02     CALIB     Average closure rms =  0.0059 +-  0.0010
   3    4   28-FEB-2009  03:18:02     CALIB     Fraction of times having data >  2.5 rms from solution
   3    4   28-FEB-2009  03:18:02     CALIB     0.26000 of the times had  2 -  4 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:02     CALIB     0.48000 of the times had  4 -  6 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:02     CALIB     0.20000 of the times had  6 -  8 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:02     CALIB     0.02000 of the times had  8 - 10 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:02     CALIB     0.02000 of the times had 10 - 12 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:02     CALIB     0.02000 of the times had 14 - 16 percent outside  2.5 times rms
   3    2   28-FEB-2009  03:18:02     CALIB     Adjusting solutions to a common reference antenna
   3    3   28-FEB-2009  03:18:02     CALIB     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:02     CALIB     vlbacald-b   31DEC07 TST: Cpu=       9.6  Real=      13
   3    2   28-FEB-2009  03:18:02     AIPS      Resumes
   3    5   28-FEB-2009  03:18:02     CLCAL     Task CLCAL  (release of 31DEC07) begins
   3    4   28-FEB-2009  03:18:02     CLCAL     Using interpolation mode 2PT
   3    3   28-FEB-2009  03:18:02     CLCAL     Processing SN table    1
   3    5   28-FEB-2009  03:18:02     CLCAL     SNMRG: Merging SN table
   3    5   28-FEB-2009  03:18:02     CLCAL     SNMRG: Write    1480 merged records from    1480 input records
   3    4   28-FEB-2009  03:18:02     CLCAL     SN2CL: Applying SN tables to CL table   1, writing CL table  2
   3    3   28-FEB-2009  03:18:03     CLCAL     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:03     CLCAL     vlbacald-b   31DEC07 TST: Cpu=       0.7  Real=       1
   3    2   28-FEB-2009  03:18:03     AIPS      Resumes
   3    5   28-FEB-2009  03:18:03     CLCAL     Task CLCAL  (release of 31DEC07) begins
   3    4   28-FEB-2009  03:18:03     CLCAL     Using interpolation mode SELF
   3    6   28-FEB-2009  03:18:03     CLCAL     Deleted   2132 records from CL table no.    2
   3    3   28-FEB-2009  03:18:03     CLCAL     Processing SN table    1
   3    6   28-FEB-2009  03:18:03     CLCAL     WARNING: SN table    1 has already been applied
   3    5   28-FEB-2009  03:18:03     CLCAL     SNMRG: Merging SN table
   3    5   28-FEB-2009  03:18:03     CLCAL     SNMRG: Write    1480 merged records from    1480 input records
   3    4   28-FEB-2009  03:18:03     CLCAL     SN2CL: Applying SN tables to CL table   1, writing CL table  2
   3    3   28-FEB-2009  03:18:04     CLCAL     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:04     CLCAL     vlbacald-b   31DEC07 TST: Cpu=       1.1  Real=       1
   3    2   28-FEB-2009  03:18:04     AIPS      Resumes
   3    5   28-FEB-2009  03:18:04     CALIB     Task CALIB  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:18:04     CALIB     CALIB USING 19900715     . LBAND1 .   1 DISK=  1 USID=****
   3    3   28-FEB-2009  03:18:04     CALIB     L1 Solution type
   3    2   28-FEB-2009  03:18:04     CALIB     Selecting, editing and calibrating the data
   3    3   28-FEB-2009  03:18:04     CALIB     Doing cal transfer mode with point model for each source
   3    3   28-FEB-2009  03:18:04     CALIB     This is not self-calibration
   3    2   28-FEB-2009  03:18:04     CALIB     Dividing data by source flux densities
   3    2   28-FEB-2009  03:18:04     CALIB     Determining solutions
   3    3   28-FEB-2009  03:18:04     CALIB     Writing SN table    2
   3    5   28-FEB-2009  03:18:05     CALIB     RPOL, IF= 1 The average gain over these antennas is  4.356E+00
   3    5   28-FEB-2009  03:18:05     CALIB     RPOL, IF= 2 The average gain over these antennas is  4.528E+00
   3    5   28-FEB-2009  03:18:05     CALIB     LPOL, IF= 1 The average gain over these antennas is  4.348E+00
   3    5   28-FEB-2009  03:18:05     CALIB     LPOL, IF= 2 The average gain over these antennas is  4.557E+00
   3    5   28-FEB-2009  03:18:05     CALIB     Found         2440 good solutions
   3    4   28-FEB-2009  03:18:05     CALIB     Average closure rms =  0.0011 +-  0.0001
   3    4   28-FEB-2009  03:18:05     CALIB     Fraction of times having data >  2.5 rms from solution
   3    4   28-FEB-2009  03:18:05     CALIB     0.75258 of the times had  0 -  2 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:05     CALIB     0.16495 of the times had  2 -  4 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:05     CALIB     0.02062 of the times had  4 -  6 percent outside  2.5 times rms
   3    2   28-FEB-2009  03:18:05     CALIB     Adjusting solutions to a common reference antenna
   3    3   28-FEB-2009  03:18:05     CALIB     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:05     CALIB     vlbacald-b   31DEC07 TST: Cpu=       1.1  Real=       1
   3    2   28-FEB-2009  03:18:05     AIPS      Resumes
   3    5   28-FEB-2009  03:18:05     CALIB     Task CALIB  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:18:05     CALIB     CALIB USING 19900715     . LBAND1 .   1 DISK=  1 USID=****
   3    3   28-FEB-2009  03:18:05     CALIB     L1 Solution type
   3    2   28-FEB-2009  03:18:05     CALIB     Selecting, editing and calibrating the data
   3    3   28-FEB-2009  03:18:05     CALIB     Doing self-cal mode with CC model
   3    4   28-FEB-2009  03:18:05     CALIB     SETGDS: imaging done with reprojected tangent point(s)
   3    3   28-FEB-2009  03:18:05     CALIB     FACSET: source model will be scaled to 14.511 Jy
   3    3   28-FEB-2009  03:18:05     CALIB     FACSET: 14.915697 Jy found from 1424 components
   3    4   28-FEB-2009  03:18:05     CALIB     FACSET: scaling factor set to  9.72852E-01
   3    2   28-FEB-2009  03:18:05     CALIB     QINIT: did a GET  of   20480 Kwords, OFF        -90696309
   3    2   28-FEB-2009  03:18:05     CALIB     VISDFT: Begin DFT component division
   3    2   28-FEB-2009  03:18:05     CALIB     VISDFT: Model components of type Point
   3    3   28-FEB-2009  03:18:05     CALIB     I Polarization model processed
   3    2   28-FEB-2009  03:18:06     CALIB     Model computation is    10 percent complete
   3    2   28-FEB-2009  03:18:07     CALIB     Model computation is    20 percent complete
   3    2   28-FEB-2009  03:18:07     CALIB     Model computation is    30 percent complete
   3    2   28-FEB-2009  03:18:08     CALIB     Model computation is    50 percent complete
   3    2   28-FEB-2009  03:18:08     CALIB     Model computation is    60 percent complete
   3    2   28-FEB-2009  03:18:09     CALIB     Model computation is    70 percent complete
   3    2   28-FEB-2009  03:18:10     CALIB     Model computation is    90 percent complete
   3    3   28-FEB-2009  03:18:10     CALIB     FACSET: source model will be scaled to 14.278 Jy
   3    3   28-FEB-2009  03:18:10     CALIB     FACSET: 14.915697 Jy found from 1424 components
   3    4   28-FEB-2009  03:18:10     CALIB     FACSET: scaling factor set to  9.57251E-01
   3    2   28-FEB-2009  03:18:10     CALIB     VISDFT: Begin DFT component division
   3    3   28-FEB-2009  03:18:10     CALIB     I Polarization model processed
   3    3   28-FEB-2009  03:18:20     CALIB     Field    1 used    1424 CCs
   3    2   28-FEB-2009  03:18:20     CALIB     Determining solutions
   3    6   28-FEB-2009  03:18:20     CALIB     Deleted    104 records from SN table no.    2
   3    3   28-FEB-2009  03:18:20     CALIB     Writing SN table    2
   3    5   28-FEB-2009  03:18:20     CALIB     RPOL, IF= 1 The average gain over these antennas is  3.885E+00
   3    5   28-FEB-2009  03:18:20     CALIB     RPOL, IF= 2 The average gain over these antennas is  3.963E+00
   3    5   28-FEB-2009  03:18:20     CALIB     LPOL, IF= 1 The average gain over these antennas is  3.862E+00
   3    5   28-FEB-2009  03:18:20     CALIB     LPOL, IF= 2 The average gain over these antennas is  3.977E+00
   3    5   28-FEB-2009  03:18:20     CALIB     Found          364 good solutions
   3    4   28-FEB-2009  03:18:20     CALIB     Average closure rms =  0.0007 +-  0.0001
   3    4   28-FEB-2009  03:18:20     CALIB     Fraction of times having data >  2.5 rms from solution
   3    4   28-FEB-2009  03:18:20     CALIB     0.13333 of the times had  0 -  2 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:20     CALIB     0.46667 of the times had  2 -  4 percent outside  2.5 times rms
   3    4   28-FEB-2009  03:18:20     CALIB     0.26667 of the times had  4 -  6 percent outside  2.5 times rms
   3    2   28-FEB-2009  03:18:20     CALIB     Adjusting solutions to a common reference antenna
   3    3   28-FEB-2009  03:18:20     CALIB     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:20     CALIB     vlbacald-b   31DEC07 TST: Cpu=       9.6  Real=      15
   3    2   28-FEB-2009  03:18:20     AIPS      Resumes
   3    4   28-FEB-2009  03:18:20     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  03:18:20     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:18:20     AIPS      Destroyed MA image file: catno=      2 disk= 1
   3    5   28-FEB-2009  03:18:21     GETJY     Task GETJY  (release of 31DEC07) begins
   3    6   28-FEB-2009  03:18:21     GETJY        Source:Qual      CALCODE IF  Flux (Jy)
   3    6   28-FEB-2009  03:18:21     GETJY     1831-126        :  0   T     1    0.53095 +/-   0.00113
   3    6   28-FEB-2009  03:18:21     GETJY                                  2    0.51022 +/-   0.00132
   3    6   28-FEB-2009  03:18:21     GETJY     2136+141        :  0   A     1    1.16596 +/-   0.00330
   3    6   28-FEB-2009  03:18:21     GETJY                                  2    1.15025 +/-   0.00350
   3    3   28-FEB-2009  03:18:21     GETJY     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:21     GETJY     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  03:18:21     AIPS      Resumes
   3    5   28-FEB-2009  03:18:21     CLCAL     Task CLCAL  (release of 31DEC07) begins
   3    4   28-FEB-2009  03:18:21     CLCAL     Using interpolation mode 2PT
   3    3   28-FEB-2009  03:18:21     CLCAL     Processing SN table    2
   3    5   28-FEB-2009  03:18:21     CLCAL     SNMRG: Merging SN table
   3    5   28-FEB-2009  03:18:21     CLCAL     SNMRG: Write     623 merged records from     623 input records
   3    4   28-FEB-2009  03:18:21     CLCAL     SN2CL: Applying SN tables to CL table   2, writing CL table  3
   3    3   28-FEB-2009  03:18:22     CLCAL     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:22     CLCAL     vlbacald-b   31DEC07 TST: Cpu=       0.8  Real=       1
   3    2   28-FEB-2009  03:18:22     AIPS      Resumes
   3    5   28-FEB-2009  03:18:22     CLCAL     Task CLCAL  (release of 31DEC07) begins
   3    4   28-FEB-2009  03:18:22     CLCAL     Using interpolation mode SELF
   3    6   28-FEB-2009  03:18:22     CLCAL     Deleted   2132 records from CL table no.    3
   3    3   28-FEB-2009  03:18:22     CLCAL     Processing SN table    2
   3    6   28-FEB-2009  03:18:22     CLCAL     WARNING: SN table    2 has already been applied
   3    5   28-FEB-2009  03:18:22     CLCAL     SNMRG: Merging SN table
   3    5   28-FEB-2009  03:18:22     CLCAL     SNMRG: Write     623 merged records from     623 input records
   3    4   28-FEB-2009  03:18:22     CLCAL     SN2CL: Applying SN tables to CL table   2, writing CL table  3
   3    3   28-FEB-2009  03:18:23     CLCAL     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:23     CLCAL     vlbacald-b   31DEC07 TST: Cpu=       1.1  Real=       1
   3    2   28-FEB-2009  03:18:23     AIPS      Resumes
   3    5   28-FEB-2009  03:18:23     TASAV     Task TASAV  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:18:23     TASAV     Create 19900715    .TASAV .   1 (UV)  on disk  1  cno    2
   3    3   28-FEB-2009  03:18:23     TASAV     Copied FQ file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:23     TASAV     Copied AN file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:23     TASAV     Copied CL file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:23     TASAV     Copied CL file from vol/cno/vers  1    1   2 to  1    2   2
   3    3   28-FEB-2009  03:18:23     TASAV     Copied CL file from vol/cno/vers  1    1   3 to  1    2   3
   3    3   28-FEB-2009  03:18:23     TASAV     Copied SU file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:26     TASAV     Copied TY file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:26     TASAV     Copied WX file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:26     TASAV     Copied NX file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:26     TASAV     Copied FG file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:26     TASAV     Copied FG file from vol/cno/vers  1    1   2 to  1    2   2
   3    3   28-FEB-2009  03:18:26     TASAV     Copied XX file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:26     TASAV     Copied SN file from vol/cno/vers  1    1   1 to  1    2   1
   3    3   28-FEB-2009  03:18:26     TASAV     Copied SN file from vol/cno/vers  1    1   2 to  1    2   2
   3    3   28-FEB-2009  03:18:26     TASAV     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:26     TASAV     vlbacald-b   31DEC07 TST: Cpu=       0.3  Real=       3
   3    2   28-FEB-2009  03:18:26     AIPS      Resumes
   3    5   28-FEB-2009  03:18:26     SPLIT     Task SPLIT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:18:26     SPLIT     You are using a non-standard program
   3    2   28-FEB-2009  03:18:26     SPLIT     Doing subarray  1
   3    2   28-FEB-2009  03:18:26     SPLIT     Create 1328+307    .LBAND1.   1 (UV)  on disk  1  cno    3
   3    3   28-FEB-2009  03:18:26     SPLIT     Applying CL Table version     3
   3    6   28-FEB-2009  03:18:27     SPLIT                Previously flagged   flagged by gain         kept
   3    6   28-FEB-2009  03:18:27     SPLIT     Partially            5403                3218           5403
   3    6   28-FEB-2009  03:18:27     SPLIT     Fully                   0                   0          16906
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied AN file from vol/cno/vers  1    1   1 to  1    3   1
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied WX file from vol/cno/vers  1    1   1 to  1    3   1
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied XX file from vol/cno/vers  1    1   1 to  1    3   1
   3    2   28-FEB-2009  03:18:27     SPLIT     Create 1831-126    .LBAND1.   1 (UV)  on disk  1  cno    4
   3    6   28-FEB-2009  03:18:27     SPLIT                Previously flagged   flagged by gain         kept
   3    6   28-FEB-2009  03:18:27     SPLIT     Partially               0                   0              0
   3    6   28-FEB-2009  03:18:27     SPLIT     Fully                   0                   0          39190
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied AN file from vol/cno/vers  1    1   1 to  1    4   1
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied WX file from vol/cno/vers  1    1   1 to  1    4   1
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied XX file from vol/cno/vers  1    1   1 to  1    4   1
   3    2   28-FEB-2009  03:18:27     SPLIT     Create NGC6712     .LBAND1.   1 (UV)  on disk  1  cno    5
   3    6   28-FEB-2009  03:18:27     SPLIT                Previously flagged   flagged by gain         kept
   3    6   28-FEB-2009  03:18:27     SPLIT     Partially             447                   0            447
   3    6   28-FEB-2009  03:18:27     SPLIT     Fully                   0                   0         173943
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied AN file from vol/cno/vers  1    1   1 to  1    5   1
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied WX file from vol/cno/vers  1    1   1 to  1    5   1
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied XX file from vol/cno/vers  1    1   1 to  1    5   1
   3    2   28-FEB-2009  03:18:27     SPLIT     Create 2136+141    .LBAND1.   1 (UV)  on disk  1  cno    6
   3    6   28-FEB-2009  03:18:27     SPLIT                Previously flagged   flagged by gain         kept
   3    6   28-FEB-2009  03:18:27     SPLIT     Partially            2022                   0           2022
   3    6   28-FEB-2009  03:18:27     SPLIT     Fully                   0                   0          36053
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied AN file from vol/cno/vers  1    1   1 to  1    6   1
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied WX file from vol/cno/vers  1    1   1 to  1    6   1
   3    3   28-FEB-2009  03:18:27     SPLIT     Copied XX file from vol/cno/vers  1    1   1 to  1    6   1
   3    2   28-FEB-2009  03:18:27     SPLIT     Create NGC7078     .LBAND1.   1 (UV)  on disk  1  cno    7
   3    6   28-FEB-2009  03:18:28     SPLIT                Previously flagged   flagged by gain         kept
   3    6   28-FEB-2009  03:18:28     SPLIT     Partially               0                   0              0
   3    6   28-FEB-2009  03:18:28     SPLIT     Fully                   0                   0         174806
   3    3   28-FEB-2009  03:18:28     SPLIT     Copied AN file from vol/cno/vers  1    1   1 to  1    7   1
   3    3   28-FEB-2009  03:18:28     SPLIT     Copied WX file from vol/cno/vers  1    1   1 to  1    7   1
   3    3   28-FEB-2009  03:18:28     SPLIT     Copied XX file from vol/cno/vers  1    1   1 to  1    7   1
   3    3   28-FEB-2009  03:18:28     SPLIT     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:28     SPLIT     vlbacald-b   31DEC07 TST: Cpu=       1.1  Real=       2
   3    2   28-FEB-2009  03:18:28     AIPS      Resumes
   3    5   28-FEB-2009  03:18:28     AIPS      ' '
   3    5   28-FEB-2009  03:18:28     AIPS      'ESTIMATED RMS:'     '0.05736 MILLI JANSKY'
   3    3   28-FEB-2009  03:18:28     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:18:28     AIPS      rm -f /tmp/SETFC@1328+307_LBAND1.0-1 >& /dev/null
   3    2   28-FEB-2009  03:18:28     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:18:28     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:18:28     SETFC     Found 1328+307    .LBAND1.00001 Disk  1 slot     3
   3    4   28-FEB-2009  03:18:28     SETFC     SETCEL: max baseline, W = 1.1149E+05 7.7253E+04 wavelengths
   3    4   28-FEB-2009  03:18:28     SETFC     SETCEL: max field radius 4.2846E+02 arc seconds
   3    4   28-FEB-2009  03:18:28     SETFC     SETCEL: recommends IMSIZE  1389 CELLSIZE   0.616710
   3    4   28-FEB-2009  03:18:28     SETFC     SETCEL: returns    IMSIZE  2048 CELLSIZE   0.422541
   3    2   28-FEB-2009  03:18:28     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:18:28     SETFC     ZTXOP2: /tmp/SETFC@1328+307_LBAND1.0-1
   3    4   28-FEB-2009  03:18:28     SETFC     FLYEYE added   7 fields to BOXFILE to  0.204 deg
   3    7   28-FEB-2009  03:18:28     SETFC     WARNING: THIS MAY NOT COVER THE DESIRED AREA
   3    4   28-FEB-2009  03:18:28     SETFC     First field number written was   1
   3    4   28-FEB-2009  03:18:28     SETFC     Highest field number written was   7
   3    2   28-FEB-2009  03:18:28     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:18:28     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:28     SETFC     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  03:18:28     AIPS      Resumes
   3    3   28-FEB-2009  03:18:28     AIPS      SETFC    was not found to be running
   3    5   28-FEB-2009  03:18:28     AIPS      'SEARCHING FOR NVSS SOURCES'
   3    2   28-FEB-2009  03:18:28     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:18:28     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:18:28     SETFC     Found 1328+307    .LBAND1.00001 Disk  1 slot     3
   3    2   28-FEB-2009  03:18:28     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:18:28     SETFC     ZTXOP2: /tmp/SETFC@1328+307_LBAND1.0-1
   3    3   28-FEB-2009  03:18:28     SETFC     Searching catalog between  0.20 and   0.77 degrees radius
   3    2   28-FEB-2009  03:18:28     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:18:28     SETFC     ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030
   3    3   28-FEB-2009  03:18:29     SETFC     No NVSS sources selected for BOXFILE
   3    3   28-FEB-2009  03:18:29     SETFC     The Sun is  77.9 deg away - ignoring
   3    4   28-FEB-2009  03:18:29     SETFC     First field number written was   8
   3    4   28-FEB-2009  03:18:29     SETFC     Highest field number written was   7
   3    2   28-FEB-2009  03:18:29     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:18:29     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:18:29     SETFC     vlbacald-b   31DEC07 TST: Cpu=       0.9  Real=       1
   3    2   28-FEB-2009  03:18:29     AIPS      Resumes
   3    3   28-FEB-2009  03:18:29     AIPS      SETFC    was not found to be running
   3    3   28-FEB-2009  03:18:29     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:18:29     AIPS      echo "SETFC FILE FOR SOURCE 1328+307 BELOW IS:" >> $ARUN/AM0308_
   3    3   28-FEB-2009  03:18:29     AIPS      1990JUL15_1.1.log
   3    3   28-FEB-2009  03:18:29     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:18:29     AIPS      cat /tmp/SETFC@1328+307_LBAND1.0-1 >> $ARUN/AM0308_1990JUL15_1.1
   3    3   28-FEB-2009  03:18:29     AIPS      .log
   3    5   28-FEB-2009  03:18:29     AIPS      '    NOW STARTING WITH SOURCE  :1  =1328+307'
   3    5   28-FEB-2009  03:18:29     AIPS      ' '
   3    5   28-FEB-2009  03:18:29     IMAGR     Task IMAGR  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:18:29     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:18:29     IMAGR     ZTXOP2: /tmp/SETFC@1328+307_LBAND1.0-1
   3    3   28-FEB-2009  03:18:29     IMAGR     FIELDF: Final field parameters and # read are:
   3    3   28-FEB-2009  03:18:29     IMAGR     Field    1 2036 2036  3.6727E-02  4.3781E-02          0
   3    3   28-FEB-2009  03:18:29     IMAGR     Field    2 2036 2036  3.6727E-02 -7.3446E+02          0
   3    3   28-FEB-2009  03:18:29     IMAGR     Field    3 2036 2036 -6.3540E+02 -3.6776E+02          0
   3    3   28-FEB-2009  03:18:29     IMAGR     Field    4 2036 2036  6.3534E+02 -3.6776E+02          0
   3    3   28-FEB-2009  03:18:29     IMAGR     Field    5 2036 2036 -6.3669E+02  3.6664E+02          0
   3    3   28-FEB-2009  03:18:29     IMAGR     Field    6 2036 2036  6.3663E+02  3.6664E+02          0
   3    3   28-FEB-2009  03:18:29     IMAGR     Field    7 2036 2036  3.6727E-02  7.3444E+02          0
   3    2   28-FEB-2009  03:18:29     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:18:29     IMAGR     ZTXOP2: /tmp/SETFC@1328+307_LBAND1.0-1
   3    7   28-FEB-2009  03:18:29     IMAGR     WINDF: Number of clean boxes/field read as follows:
   3    3   28-FEB-2009  03:18:29     IMAGR     Field 01:   1  Field 02:   1  Field 03:   1  Field 04:   1
   3    3   28-FEB-2009  03:18:29     IMAGR     Field 05:   1  Field 06:   1  Field 07:   1
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .IMAGR .   1 (UV)  on disk  1  cno    8
   3    4   28-FEB-2009  03:18:29     IMAGR     Beginning channel    1 through    1 with  2 IFs
   3    3   28-FEB-2009  03:18:29     IMAGR     IMACPY: Copied    22309 visibilities to be imaged
   3    2   28-FEB-2009  03:18:29     IMAGR     QINIT: did a GET  of   20480 Kwords, OFF        -91543885
   3    2   28-FEB-2009  03:18:29     IMAGR     UVWAIT: begin finding uniform weights
   3    2   28-FEB-2009  03:18:29     IMAGR     UVWAIT: Average grid weight  2.554E+04
   3    2   28-FEB-2009  03:18:29     IMAGR     UVWAIT: Adding temperance S  5.108E+03
   3    2   28-FEB-2009  03:18:29     IMAGR     UVWAIT: begin applying uniform or other weights
   3    4   28-FEB-2009  03:18:29     IMAGR     UVWAIT: Sum of weights in  4.962E+07 and out  7.576E+07
   3    4   28-FEB-2009  03:18:29     IMAGR     UVWAIT: Noise is increased by a factor 1.183 due to weighting
   3    4   28-FEB-2009  03:18:29     IMAGR     UVWAIT: Average summed weight  2.554E+04 over      40631 vis
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .IBM001.   1 (MA)  on disk  1  cno    9
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .IBM002.   1 (MA)  on disk  1  cno   10
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .IBM003.   1 (MA)  on disk  1  cno   11
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .IBM004.   1 (MA)  on disk  1  cno   12
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .IBM005.   1 (MA)  on disk  1  cno   13
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .IBM006.   1 (MA)  on disk  1  cno   14
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .IBM007.   1 (MA)  on disk  1  cno   15
   3    2   28-FEB-2009  03:18:29     IMAGR     Create 1328+307    .ICL001.   1 (MA)  on disk  1  cno   16
   3    2   28-FEB-2009  03:18:30     IMAGR     Create 1328+307    .ICL002.   1 (MA)  on disk  1  cno   17
   3    2   28-FEB-2009  03:18:30     IMAGR     Create 1328+307    .ICL003.   1 (MA)  on disk  1  cno   18
   3    2   28-FEB-2009  03:18:30     IMAGR     Create 1328+307    .ICL004.   1 (MA)  on disk  1  cno   19
   3    2   28-FEB-2009  03:18:30     IMAGR     Create 1328+307    .ICL005.   1 (MA)  on disk  1  cno   20
   3    2   28-FEB-2009  03:18:30     IMAGR     Create 1328+307    .ICL006.   1 (MA)  on disk  1  cno   21
   3    2   28-FEB-2009  03:18:30     IMAGR     Create 1328+307    .ICL007.   1 (MA)  on disk  1  cno   22
   3    2   28-FEB-2009  03:18:30     IMAGR     GRDFLT: X and Y convolution type = SPHEROIDAL
   3    2   28-FEB-2009  03:18:30     IMAGR     GRDFLT: X and Y parms =  3.0000  1.0000
   3    2   28-FEB-2009  03:18:30     IMAGR     GRDFLT: convolution function sampled every 1/100 of a cell
   3    2   28-FEB-2009  03:18:30     IMAGR     GRDMEM: Ave    2 Channels; 1.464900E+09 to 1.514900E+09 Hz
   3    4   28-FEB-2009  03:18:30     IMAGR     Field   1 Sum of gridding weights =  8.04324E+08
   3    4   28-FEB-2009  03:18:31     IMAGR     Field   1 Beam min =  -69.3 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:18:31     IMAGR     Field   1 fit FWHM =    4.063 x    1.505      arcsec, PA=   75.8
   3    4   28-FEB-2009  03:18:31     IMAGR     Field   2 Sum of gridding weights =  8.04324E+08
   3    4   28-FEB-2009  03:18:31     IMAGR     Field   2 Beam min =  -69.3 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:18:31     IMAGR     Field   2 fit FWHM =    4.064 x    1.505      arcsec, PA=   75.7
   3    4   28-FEB-2009  03:18:32     IMAGR     Field   3 Sum of gridding weights =  8.04328E+08
   3    4   28-FEB-2009  03:18:32     IMAGR     Field   3 Beam min =  -69.6 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:18:32     IMAGR     Field   3 fit FWHM =    4.083 x    1.505      arcsec, PA=   75.8
   3    4   28-FEB-2009  03:18:32     IMAGR     Field   4 Sum of gridding weights =  8.04332E+08
   3    4   28-FEB-2009  03:18:33     IMAGR     Field   4 Beam min =  -69.9 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:18:33     IMAGR     Field   4 fit FWHM =    4.060 x    1.505      arcsec, PA=   75.9
   3    4   28-FEB-2009  03:18:33     IMAGR     Field   5 Sum of gridding weights =  8.04331E+08
   3    4   28-FEB-2009  03:18:34     IMAGR     Field   5 Beam min =  -69.7 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:18:34     IMAGR     Field   5 fit FWHM =    4.081 x    1.505      arcsec, PA=   75.8
   3    4   28-FEB-2009  03:18:34     IMAGR     Field   6 Sum of gridding weights =  8.04332E+08
   3    4   28-FEB-2009  03:18:51     IMAGR     Field   6 Beam min =  -69.9 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:18:51     IMAGR     Field   6 fit FWHM =    4.059 x    1.505      arcsec, PA=   75.9
   3    4   28-FEB-2009  03:18:51     IMAGR     Field   7 Sum of gridding weights =  8.04326E+08
   3    4   28-FEB-2009  03:18:52     IMAGR     Field   7 Beam min =  -69.3 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:18:52     IMAGR     Field   7 fit FWHM =    4.062 x    1.505      arcsec, PA=   75.8
   3    4   28-FEB-2009  03:18:52     IMAGR     CLBHIS: minimum component 0.500 of current peak
   3    4   28-FEB-2009  03:18:55     IMAGR     Field   1 min = -998.8 MilliJy,max =   14.5      Jy
   3    4   28-FEB-2009  03:18:56     IMAGR     Field   2 min =   -1.1      Jy,max =    1.5      Jy
   3    4   28-FEB-2009  03:18:57     IMAGR     Field   3 min = -770.2 MilliJy,max =    1.1      Jy
   3    4   28-FEB-2009  03:18:57     IMAGR     Field   4 min = -751.8 MilliJy,max =    1.2      Jy
   3    4   28-FEB-2009  03:18:58     IMAGR     Field   5 min = -769.6 MilliJy,max =    1.1      Jy
   3    4   28-FEB-2009  03:18:59     IMAGR     Field   6 min = -746.5 MilliJy,max =    1.2      Jy
   3    4   28-FEB-2009  03:18:59     IMAGR     Field   7 min = -984.9 MilliJy,max =    1.5      Jy
   3    2   28-FEB-2009  03:19:01     IMAGR     BGC Clean: using 2025 cell beam + residuals >   772.68 MilliJy
   3    2   28-FEB-2009  03:19:01     IMAGR        15456 Residual map points loaded
   3    4   28-FEB-2009  03:19:05     IMAGR     Field    1 min allowed flux  =    6.932      Jy iter=        8
   3    3   28-FEB-2009  03:19:05     IMAGR     Field    1 Clean flux density=    8.254      Jy        8 comps
   3    3   28-FEB-2009  03:19:05     IMAGR     Total Cleaned flux density     =    8.254      Jy        8 comps
   3    4   28-FEB-2009  03:19:06     IMAGR     SETDO3: imaging done with multiple tangent planes
   3    2   28-FEB-2009  03:19:06     IMAGR     VISDFT: Begin DFT component subtraction
   3    2   28-FEB-2009  03:19:06     IMAGR     VISDFT: Model components of type Point
   3    3   28-FEB-2009  03:19:06     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:14     IMAGR     Field   1 min = -426.8 MilliJy,max =    6.2      Jy
   3    2   28-FEB-2009  03:19:15     IMAGR     BGC Clean: using 1609 cell beam + residuals >   621.31 MilliJy
   3    2   28-FEB-2009  03:19:15     IMAGR         1160 Residual map points loaded
   3    4   28-FEB-2009  03:19:15     IMAGR     Field    1 min allowed flux  =    2.984      Jy iter=       16
   3    3   28-FEB-2009  03:19:15     IMAGR     Field    1 Clean flux density=   11.807      Jy       16 comps
   3    3   28-FEB-2009  03:19:15     IMAGR     Total Cleaned flux density     =   11.807      Jy       16 comps
   3    2   28-FEB-2009  03:19:15     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:15     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:16     IMAGR     Field   1 min = -183.4 MilliJy,max =    2.7      Jy
   3    2   28-FEB-2009  03:19:17     IMAGR     BGC Clean: using  103 cell beam + residuals >   610.95 MilliJy
   3    2   28-FEB-2009  03:19:17     IMAGR           92 Residual map points loaded
   3    4   28-FEB-2009  03:19:17     IMAGR     Field    1 min allowed flux  =    1.228      Jy iter=       25
   3    3   28-FEB-2009  03:19:17     IMAGR     Field    1 Clean flux density=   13.494      Jy       25 comps
   3    3   28-FEB-2009  03:19:17     IMAGR     Total Cleaned flux density     =   13.494      Jy       25 comps
   3    2   28-FEB-2009  03:19:17     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:17     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:17     IMAGR     Field   2 min =  -84.8 MilliJy,max =  116.0 MilliJy
   3    3   28-FEB-2009  03:19:17     IMAGR     TRY ANOTHER FIELD: this is  1.107E-01 < Second best  1.390E+00
   3    4   28-FEB-2009  03:19:21     IMAGR     Field   7 min =  -79.5 MilliJy,max =  113.8 MilliJy
   3    3   28-FEB-2009  03:19:21     IMAGR     TRY ANOTHER FIELD: this is  1.086E-01 < Second best  1.167E+00
   3    4   28-FEB-2009  03:19:22     IMAGR     Field   1 min =  -74.4 MilliJy,max =    1.1      Jy
   3    3   28-FEB-2009  03:19:22     IMAGR     TRY ANOTHER FIELD: this is  1.060E+00 < Second best  1.114E+00
   3    4   28-FEB-2009  03:19:23     IMAGR     Field   6 min =  -54.5 MilliJy,max =  101.5 MilliJy
   3    3   28-FEB-2009  03:19:23     IMAGR     TRY ANOTHER FIELD: this is  9.604E-02 < Second best  1.096E+00
   3    4   28-FEB-2009  03:19:23     IMAGR     Field   3 min =  -59.0 MilliJy,max =   91.1 MilliJy
   3    3   28-FEB-2009  03:19:23     IMAGR     TRY ANOTHER FIELD: this is  8.695E-02 < Second best  1.087E+00
   3    4   28-FEB-2009  03:19:24     IMAGR     Field   5 min =  -59.1 MilliJy,max =  103.6 MilliJy
   3    3   28-FEB-2009  03:19:24     IMAGR     TRY ANOTHER FIELD: this is  9.884E-02 < Second best  1.080E+00
   3    4   28-FEB-2009  03:19:25     IMAGR     Field   4 min =  -55.1 MilliJy,max =  107.0 MilliJy
   3    3   28-FEB-2009  03:19:25     IMAGR     TRY ANOTHER FIELD: this is  9.399E-02 < Second best  1.060E+00
   3    2   28-FEB-2009  03:19:26     IMAGR     BGC Clean: using 1987 cell beam + residuals >    66.25 MilliJy
   3    2   28-FEB-2009  03:19:26     IMAGR        13989 Residual map points loaded
   3    4   28-FEB-2009  03:19:26     IMAGR     Field    1 min allowed flux  =  515.687 MilliJy iter=       34
   3    3   28-FEB-2009  03:19:26     IMAGR     Field    1 Clean flux density=   14.198      Jy       34 comps
   3    3   28-FEB-2009  03:19:26     IMAGR     Total Cleaned flux density     =   14.198      Jy       34 comps
   3    2   28-FEB-2009  03:19:26     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:26     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:29     IMAGR     Field   1 min =  -34.6 MilliJy,max =  469.5 MilliJy
   3    2   28-FEB-2009  03:19:30     IMAGR     BGC Clean: using 1079 cell beam + residuals >    53.34 MilliJy
   3    2   28-FEB-2009  03:19:30     IMAGR         1291 Residual map points loaded
   3    4   28-FEB-2009  03:19:30     IMAGR     Field    1 min allowed flux  =  220.378 MilliJy iter=       43
   3    3   28-FEB-2009  03:19:30     IMAGR     Field    1 Clean flux density=   14.495      Jy       43 comps
   3    3   28-FEB-2009  03:19:30     IMAGR     Total Cleaned flux density     =   14.495      Jy       43 comps
   3    2   28-FEB-2009  03:19:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:31     IMAGR     Field   1 min =  -23.1 MilliJy,max =  199.8 MilliJy
   3    2   28-FEB-2009  03:19:32     IMAGR     BGC Clean: using  103 cell beam + residuals >    52.25 MilliJy
   3    2   28-FEB-2009  03:19:32     IMAGR          199 Residual map points loaded
   3    4   28-FEB-2009  03:19:32     IMAGR     Field    1 min allowed flux  =   99.027 MilliJy iter=       56
   3    3   28-FEB-2009  03:19:32     IMAGR     Field    1 Clean flux density=   14.678      Jy       56 comps
   3    3   28-FEB-2009  03:19:32     IMAGR     Total Cleaned flux density     =   14.678      Jy       56 comps
   3    2   28-FEB-2009  03:19:32     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:32     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:33     IMAGR     Field   2 min =  -13.4 MilliJy,max =   20.5 MilliJy
   3    3   28-FEB-2009  03:19:33     IMAGR     TRY ANOTHER FIELD: this is  1.877E-02 < Second best  1.086E-01
   3    4   28-FEB-2009  03:19:33     IMAGR     Field   7 min =  -16.3 MilliJy,max =   20.4 MilliJy
   3    3   28-FEB-2009  03:19:33     IMAGR     TRY ANOTHER FIELD: this is  1.946E-02 < Second best  9.884E-02
   3    4   28-FEB-2009  03:19:34     IMAGR     Field   5 min =  -15.5 MilliJy,max =   21.5 MilliJy
   3    3   28-FEB-2009  03:19:34     IMAGR     TRY ANOTHER FIELD: this is  1.808E-02 < Second best  9.604E-02
   3    4   28-FEB-2009  03:19:35     IMAGR     Field   6 min =  -14.9 MilliJy,max =   73.2 MilliJy
   3    3   28-FEB-2009  03:19:37     IMAGR     TRY ANOTHER FIELD: this is  6.968E-02 < Second best  9.417E-02
   3    4   28-FEB-2009  03:19:48     IMAGR     Field   1 min =  -17.7 MilliJy,max =   93.6 MilliJy
   3    3   28-FEB-2009  03:19:48     IMAGR     TRY ANOTHER FIELD: this is  8.903E-02 < Second best  9.399E-02
   3    4   28-FEB-2009  03:19:49     IMAGR     Field   4 min =  -15.9 MilliJy,max =   28.0 MilliJy
   3    3   28-FEB-2009  03:19:49     IMAGR     TRY ANOTHER FIELD: this is  1.885E-02 < Second best  8.903E-02
   3    2   28-FEB-2009  03:19:49     IMAGR     BGC Clean: using  103 cell beam + residuals >    32.85 MilliJy
   3    2   28-FEB-2009  03:19:49     IMAGR          197 Residual map points loaded
   3    4   28-FEB-2009  03:19:49     IMAGR     Field    1 min allowed flux  =   45.004 MilliJy iter=       76
   3    3   28-FEB-2009  03:19:49     IMAGR     Field    1 Clean flux density=   14.811      Jy       76 comps
   3    3   28-FEB-2009  03:19:49     IMAGR     Total Cleaned flux density     =   14.811      Jy       76 comps
   3    2   28-FEB-2009  03:19:49     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:49     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:50     IMAGR     Field   3 min =  -13.3 MilliJy,max =   15.1 MilliJy
   3    3   28-FEB-2009  03:19:50     IMAGR     TRY ANOTHER FIELD: this is  1.383E-02 < Second best  6.968E-02
   3    4   28-FEB-2009  03:19:51     IMAGR     Field   6 min =  -13.5 MilliJy,max =   72.3 MilliJy
   3    2   28-FEB-2009  03:19:52     IMAGR     BGC Clean: using  463 cell beam + residuals >    13.77 MilliJy
   3    2   28-FEB-2009  03:19:52     IMAGR          754 Residual map points loaded
   3    4   28-FEB-2009  03:19:52     IMAGR     Field    6 min allowed flux  =   36.016 MilliJy iter=       17
   3    3   28-FEB-2009  03:19:52     IMAGR     Field    6 Clean flux density=   84.194 MilliJy       17 comps
   3    3   28-FEB-2009  03:19:52     IMAGR     Total Cleaned flux density     =   14.895      Jy       93 comps
   3    2   28-FEB-2009  03:19:52     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:52     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:53     IMAGR     Field   1 min =  -15.6 MilliJy,max =   44.0 MilliJy
   3    2   28-FEB-2009  03:19:54     IMAGR     BGC Clean: using  461 cell beam + residuals >    11.19 MilliJy
   3    2   28-FEB-2009  03:19:54     IMAGR         3082 Residual map points loaded
   3    4   28-FEB-2009  03:19:54     IMAGR     Field    1 min allowed flux  =   21.864 MilliJy iter=      100
   3    3   28-FEB-2009  03:19:54     IMAGR     Field    1 Clean flux density=   14.884      Jy      100 comps
   3    3   28-FEB-2009  03:19:54     IMAGR     Total Cleaned flux density     =   14.969      Jy      117 comps
   3    2   28-FEB-2009  03:19:54     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:54     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:55     IMAGR     Field   6 min =  -12.6 MilliJy,max =   35.1 MilliJy
   3    2   28-FEB-2009  03:19:57     IMAGR     BGC Clean: using  103 cell beam + residuals >    10.73 MilliJy
   3    2   28-FEB-2009  03:19:57     IMAGR          433 Residual map points loaded
   3    4   28-FEB-2009  03:19:58     IMAGR     Field    6 min allowed flux  =   17.530 MilliJy iter=       40
   3    3   28-FEB-2009  03:19:58     IMAGR     Field    6 Clean flux density=  142.166 MilliJy       40 comps
   3    3   28-FEB-2009  03:19:58     IMAGR     Total Cleaned flux density     =   15.027      Jy      140 comps
   3    2   28-FEB-2009  03:19:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:19:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:19:59     IMAGR     Field   1 min =  -16.3 MilliJy,max =   21.2 MilliJy
   3    2   28-FEB-2009  03:20:00     IMAGR     BGC Clean: using  103 cell beam + residuals >    10.57 MilliJy
   3    2   28-FEB-2009  03:20:00     IMAGR         2085 Residual map points loaded
   3    4   28-FEB-2009  03:20:00     IMAGR     Field    1 min algorithm flux=  -13.997 MilliJy iter=      152
   3    3   28-FEB-2009  03:20:00     IMAGR     Field    1 Clean flux density=   14.935      Jy      152 comps
   3    3   28-FEB-2009  03:20:00     IMAGR     Total Cleaned flux density     =   15.077      Jy      192 comps
   3    2   28-FEB-2009  03:20:00     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:00     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:01     IMAGR     Field   7 min =  -13.2 MilliJy,max =   13.0 MilliJy
   3    3   28-FEB-2009  03:20:01     IMAGR     TRY ANOTHER FIELD: this is  1.260E-02 < Second best  1.885E-02
   3    4   28-FEB-2009  03:20:02     IMAGR     Field   4 min =  -11.9 MilliJy,max =   19.2 MilliJy
   3    2   28-FEB-2009  03:20:03     IMAGR     BGC Clean: using  103 cell beam + residuals >     9.77 MilliJy
   3    2   28-FEB-2009  03:20:03     IMAGR          460 Residual map points loaded
   3    4   28-FEB-2009  03:20:03     IMAGR     Field    4 min algorithm flux=   11.087 MilliJy iter=       28
   3    3   28-FEB-2009  03:20:03     IMAGR     Field    4 Clean flux density=   39.005 MilliJy       28 comps
   3    3   28-FEB-2009  03:20:03     IMAGR     Total Cleaned flux density     =   15.116      Jy      220 comps
   3    2   28-FEB-2009  03:20:05     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:05     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:06     IMAGR     Field   2 min =  -13.2 MilliJy,max =   12.5 MilliJy
   3    3   28-FEB-2009  03:20:06     IMAGR     TRY ANOTHER FIELD: this is  1.266E-02 < Second best  1.808E-02
   3    4   28-FEB-2009  03:20:07     IMAGR     Field   5 min =  -12.4 MilliJy,max =   13.3 MilliJy
   3    3   28-FEB-2009  03:20:07     IMAGR     TRY ANOTHER FIELD: this is  1.136E-02 < Second best  1.670E-02
   3    4   28-FEB-2009  03:20:08     IMAGR     Field   6 min =  -12.2 MilliJy,max =   17.2 MilliJy
   3    2   28-FEB-2009  03:20:09     IMAGR     BGC Clean: using  103 cell beam + residuals >     8.57 MilliJy
   3    2   28-FEB-2009  03:20:09     IMAGR          748 Residual map points loaded
   3    4   28-FEB-2009  03:20:09     IMAGR     Field    6 min algorithm flux=   10.165 MilliJy iter=       82
   3    3   28-FEB-2009  03:20:09     IMAGR     Field    6 Clean flux density=  159.817 MilliJy       82 comps
   3    3   28-FEB-2009  03:20:09     IMAGR     Total Cleaned flux density     =   15.134      Jy      262 comps
   3    2   28-FEB-2009  03:20:10     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:10     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:11     IMAGR     Field   3 min =  -12.7 MilliJy,max =   12.0 MilliJy
   3    3   28-FEB-2009  03:20:11     IMAGR     TRY ANOTHER FIELD: this is  1.215E-02 < Second best  1.337E-02
   3    4   28-FEB-2009  03:20:12     IMAGR     Field   1 min =  -14.2 MilliJy,max =   13.3 MilliJy
   3    2   28-FEB-2009  03:20:13     IMAGR     BGC Clean: using  103 cell beam + residuals >     8.24 MilliJy
   3    2   28-FEB-2009  03:20:13     IMAGR         9662 Residual map points loaded
   3    4   28-FEB-2009  03:20:13     IMAGR     Field    1 min algorithm flux=   11.545 MilliJy iter=      278
   3    3   28-FEB-2009  03:20:13     IMAGR     Field    1 Clean flux density=   14.939      Jy      278 comps
   3    3   28-FEB-2009  03:20:13     IMAGR     Total Cleaned flux density     =   15.138      Jy      388 comps
   3    2   28-FEB-2009  03:20:14     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:14     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:18     IMAGR     Field   2 min =  -12.1 MilliJy,max =   12.0 MilliJy
   3    3   28-FEB-2009  03:20:18     IMAGR     TRY ANOTHER FIELD: this is  1.160E-02 < Second best  1.260E-02
   3    4   28-FEB-2009  03:20:19     IMAGR     Field   7 min =  -12.4 MilliJy,max =   11.2 MilliJy
   3    2   28-FEB-2009  03:20:20     IMAGR     BGC Clean: using  103 cell beam + residuals >     8.09 MilliJy
   3    2   28-FEB-2009  03:20:20     IMAGR         1968 Residual map points loaded
   3    4   28-FEB-2009  03:20:20     IMAGR     Field    7 min algorithm flux=   -9.598 MilliJy iter=       76
   3    3   28-FEB-2009  03:20:20     IMAGR     Field    7 Clean flux density=  -10.710 MilliJy       76 comps
   3    3   28-FEB-2009  03:20:20     IMAGR     Total Cleaned flux density     =   15.127      Jy      464 comps
   3    2   28-FEB-2009  03:20:20     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:20     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:21     IMAGR     Field   3 min =  -12.0 MilliJy,max =   11.3 MilliJy
   3    2   28-FEB-2009  03:20:23     IMAGR     BGC Clean: using  103 cell beam + residuals >     8.06 MilliJy
   3    2   28-FEB-2009  03:20:24     IMAGR          657 Residual map points loaded
   3    4   28-FEB-2009  03:20:24     IMAGR     Field    3 min algorithm flux=    9.064 MilliJy iter=       61
   3    3   28-FEB-2009  03:20:24     IMAGR     Field    3 Clean flux density=   21.832 MilliJy       61 comps
   3    3   28-FEB-2009  03:20:24     IMAGR     Total Cleaned flux density     =   15.149      Jy      525 comps
   3    2   28-FEB-2009  03:20:24     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:24     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:27     IMAGR     Field   2 min =  -11.7 MilliJy,max =   11.3 MilliJy
   3    2   28-FEB-2009  03:20:28     IMAGR     BGC Clean: using  103 cell beam + residuals >     8.03 MilliJy
   3    2   28-FEB-2009  03:20:28     IMAGR         1521 Residual map points loaded
   3    4   28-FEB-2009  03:20:28     IMAGR     Field    2 min algorithm flux=   -9.262 MilliJy iter=       86
   3    3   28-FEB-2009  03:20:28     IMAGR     Field    2 Clean flux density=  -21.458 MicroJy       86 comps
   3    3   28-FEB-2009  03:20:28     IMAGR     Total Cleaned flux density     =   15.149      Jy      611 comps
   3    2   28-FEB-2009  03:20:28     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:28     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:29     IMAGR     Field   5 min =  -11.6 MilliJy,max =   11.9 MilliJy
   3    3   28-FEB-2009  03:20:29     IMAGR     TRY ANOTHER FIELD: this is  1.004E-02 < Second best  1.105E-02
   3    4   28-FEB-2009  03:20:30     IMAGR     Field   1 min =  -11.1 MilliJy,max =   11.4 MilliJy
   3    2   28-FEB-2009  03:20:31     IMAGR     BGC Clean: using  103 cell beam + residuals >     7.56 MilliJy
   3    2   28-FEB-2009  03:20:32     IMAGR         5558 Residual map points loaded
   3    4   28-FEB-2009  03:20:32     IMAGR     Field    1 min algorithm flux=    9.249 MilliJy iter=      425
   3    3   28-FEB-2009  03:20:32     IMAGR     Field    1 Clean flux density=   14.965      Jy      425 comps
   3    3   28-FEB-2009  03:20:32     IMAGR     Total Cleaned flux density     =   15.175      Jy      758 comps
   3    2   28-FEB-2009  03:20:33     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:33     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:34     IMAGR     Field   4 min =  -10.0 MilliJy,max =   11.6 MilliJy
   3    2   28-FEB-2009  03:20:36     IMAGR     BGC Clean: using  103 cell beam + residuals >     7.47 MilliJy
   3    2   28-FEB-2009  03:20:36     IMAGR          607 Residual map points loaded
   3    4   28-FEB-2009  03:20:36     IMAGR     Field    4 min algorithm flux=   -8.018 MilliJy iter=       84
   3    3   28-FEB-2009  03:20:36     IMAGR     Field    4 Clean flux density=   46.684 MilliJy       84 comps
   3    3   28-FEB-2009  03:20:36     IMAGR     Total Cleaned flux density     =   15.183      Jy      814 comps
   3    2   28-FEB-2009  03:20:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:38     IMAGR     Field   5 min =  -11.1 MilliJy,max =   11.4 MilliJy
   3    2   28-FEB-2009  03:20:40     IMAGR     BGC Clean: using  103 cell beam + residuals >     7.46 MilliJy
   3    2   28-FEB-2009  03:20:40     IMAGR          470 Residual map points loaded
   3    4   28-FEB-2009  03:20:40     IMAGR     Field    5 min algorithm flux=   -8.051 MilliJy iter=       65
   3    3   28-FEB-2009  03:20:40     IMAGR     Field    5 Clean flux density=   -2.396 MilliJy       65 comps
   3    3   28-FEB-2009  03:20:40     IMAGR     Total Cleaned flux density     =   15.181      Jy      879 comps
   3    2   28-FEB-2009  03:20:40     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:40     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:41     IMAGR     Field   6 min =  -10.3 MilliJy,max =    9.5 MilliJy
   3    2   28-FEB-2009  03:20:43     IMAGR     BGC Clean: using  103 cell beam + residuals >     7.35 MilliJy
   3    2   28-FEB-2009  03:20:43     IMAGR          691 Residual map points loaded
   3    4   28-FEB-2009  03:20:43     IMAGR     Field    6 min algorithm flux=   -7.939 MilliJy iter=      154
   3    3   28-FEB-2009  03:20:43     IMAGR     Field    6 Clean flux density=  156.889 MilliJy      154 comps
   3    3   28-FEB-2009  03:20:43     IMAGR     Total Cleaned flux density     =   15.178      Jy      951 comps
   3    2   28-FEB-2009  03:20:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:45     IMAGR     Field   7 min =  -10.0 MilliJy,max =    9.1 MilliJy
   3    2   28-FEB-2009  03:20:46     IMAGR     BGC Clean: using  103 cell beam + residuals >     7.17 MilliJy
   3    2   28-FEB-2009  03:20:46     IMAGR         1200 Residual map points loaded
   3    4   28-FEB-2009  03:20:46     IMAGR     Field    7 min algorithm flux=    7.881 MilliJy iter=      173
   3    3   28-FEB-2009  03:20:46     IMAGR     Field    7 Clean flux density=  -15.992 MilliJy      173 comps
   3    3   28-FEB-2009  03:20:46     IMAGR     Total Cleaned flux density     =   15.172      Jy     1048 comps
   3    2   28-FEB-2009  03:20:46     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:46     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:47     IMAGR     Field   2 min =  -10.6 MilliJy,max =    9.5 MilliJy
   3    3   28-FEB-2009  03:20:47     IMAGR     TRY ANOTHER FIELD: this is  8.185E-03 < Second best  8.859E-03
   3    4   28-FEB-2009  03:20:48     IMAGR     Field   1 min =  -10.2 MilliJy,max =    9.4 MilliJy
   3    2   28-FEB-2009  03:20:49     IMAGR     BGC Clean: using  103 cell beam + residuals >     6.74 MilliJy
   3    2   28-FEB-2009  03:20:49     IMAGR         4819 Residual map points loaded
   3    4   28-FEB-2009  03:20:49     IMAGR     Field    1 min algorithm flux=    7.822 MilliJy iter=      605
   3    3   28-FEB-2009  03:20:49     IMAGR     Field    1 Clean flux density=   14.968      Jy      605 comps
   3    3   28-FEB-2009  03:20:49     IMAGR     Total Cleaned flux density     =   15.175      Jy     1228 comps
   3    2   28-FEB-2009  03:20:50     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:50     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:20:56     IMAGR     Field   3 min =   -8.9 MilliJy,max =    8.7 MilliJy
   3    3   28-FEB-2009  03:20:56     IMAGR     TRY ANOTHER FIELD: this is  7.764E-03 < Second best  8.185E-03
   3    4   28-FEB-2009  03:20:57     IMAGR     Field   2 min =  -10.4 MilliJy,max =    9.0 MilliJy
   3    2   28-FEB-2009  03:20:58     IMAGR     BGC Clean: using  103 cell beam + residuals >     6.56 MilliJy
   3    2   28-FEB-2009  03:20:58     IMAGR         1574 Residual map points loaded
   3    4   28-FEB-2009  03:20:58     IMAGR     Field    2 min algorithm flux=   -7.238 MilliJy iter=      219
   3    3   28-FEB-2009  03:20:58     IMAGR     Field    2 Clean flux density=   -5.119 MilliJy      219 comps
   3    3   28-FEB-2009  03:20:58     IMAGR     Total Cleaned flux density     =   15.170      Jy     1361 comps
   3    2   28-FEB-2009  03:20:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:20:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:03     IMAGR     Field   3 min =   -8.8 MilliJy,max =    8.5 MilliJy
   3    2   28-FEB-2009  03:21:04     IMAGR     BGC Clean: using  103 cell beam + residuals >     6.55 MilliJy
   3    2   28-FEB-2009  03:21:04     IMAGR          784 Residual map points loaded
   3    4   28-FEB-2009  03:21:04     IMAGR     Field    3 min algorithm flux=   -7.010 MilliJy iter=      158
   3    3   28-FEB-2009  03:21:04     IMAGR     Field    3 Clean flux density=   44.649 MilliJy      158 comps
   3    3   28-FEB-2009  03:21:04     IMAGR     Total Cleaned flux density     =   15.193      Jy     1458 comps
   3    2   28-FEB-2009  03:21:04     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:04     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:05     IMAGR     Field   5 min =   -9.7 MilliJy,max =   10.2 MilliJy
   3    3   28-FEB-2009  03:21:05     IMAGR     TRY ANOTHER FIELD: this is  7.135E-03 < Second best  7.673E-03
   3    4   28-FEB-2009  03:21:06     IMAGR     Field   4 min =   -8.8 MilliJy,max =   10.2 MilliJy
   3    2   28-FEB-2009  03:21:07     IMAGR     BGC Clean: using  103 cell beam + residuals >     6.43 MilliJy
   3    2   28-FEB-2009  03:21:07     IMAGR          572 Residual map points loaded
   3    4   28-FEB-2009  03:21:07     IMAGR     Field    4 min algorithm flux=   -6.780 MilliJy iter=      167
   3    3   28-FEB-2009  03:21:07     IMAGR     Field    4 Clean flux density=   38.039 MilliJy      167 comps
   3    3   28-FEB-2009  03:21:07     IMAGR     Total Cleaned flux density     =   15.184      Jy     1541 comps
   3    2   28-FEB-2009  03:21:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:10     IMAGR     Field   6 min =   -9.3 MilliJy,max =    9.2 MilliJy
   3    2   28-FEB-2009  03:21:11     IMAGR     BGC Clean: using  103 cell beam + residuals >     6.34 MilliJy
   3    2   28-FEB-2009  03:21:11     IMAGR          820 Residual map points loaded
   3    4   28-FEB-2009  03:21:11     IMAGR     Field    6 min algorithm flux=   -6.764 MilliJy iter=      258
   3    3   28-FEB-2009  03:21:11     IMAGR     Field    6 Clean flux density=  158.187 MilliJy      258 comps
   3    3   28-FEB-2009  03:21:11     IMAGR     Total Cleaned flux density     =   15.186      Jy     1645 comps
   3    2   28-FEB-2009  03:21:11     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:11     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:12     IMAGR     Field   7 min =   -9.3 MilliJy,max =    8.5 MilliJy
   3    3   28-FEB-2009  03:21:12     IMAGR     TRY ANOTHER FIELD: this is  7.022E-03 < Second best  7.501E-03
   3    4   28-FEB-2009  03:21:13     IMAGR     Field   1 min =   -9.0 MilliJy,max =    8.8 MilliJy
   3    2   28-FEB-2009  03:21:14     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.94 MilliJy
   3    2   28-FEB-2009  03:21:14     IMAGR         4218 Residual map points loaded
   3    4   28-FEB-2009  03:21:14     IMAGR     Field    1 min algorithm flux=    6.668 MilliJy iter=      815
   3    3   28-FEB-2009  03:21:14     IMAGR     Field    1 Clean flux density=   14.975      Jy      815 comps
   3    3   28-FEB-2009  03:21:14     IMAGR     Total Cleaned flux density     =   15.193      Jy     1855 comps
   3    2   28-FEB-2009  03:21:14     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:14     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:18     IMAGR     Field   5 min =   -9.3 MilliJy,max =    9.6 MilliJy
   3    2   28-FEB-2009  03:21:18     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.93 MilliJy
   3    2   28-FEB-2009  03:21:18     IMAGR          990 Residual map points loaded
   3    4   28-FEB-2009  03:21:18     IMAGR     Field    5 min algorithm flux=    6.359 MilliJy iter=      202
   3    3   28-FEB-2009  03:21:18     IMAGR     Field    5 Clean flux density=   -1.740 MilliJy      202 comps
   3    3   28-FEB-2009  03:21:18     IMAGR     Total Cleaned flux density     =   15.194      Jy     1992 comps
   3    2   28-FEB-2009  03:21:18     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:18     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:25     IMAGR     Field   7 min =   -8.8 MilliJy,max =    8.1 MilliJy
   3    2   28-FEB-2009  03:21:25     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.89 MilliJy
   3    2   28-FEB-2009  03:21:25     IMAGR          898 Residual map points loaded
   3    4   28-FEB-2009  03:21:25     IMAGR     Field    7 min algorithm flux=    6.216 MilliJy iter=      287
   3    3   28-FEB-2009  03:21:25     IMAGR     Field    7 Clean flux density=  -11.914 MilliJy      287 comps
   3    3   28-FEB-2009  03:21:25     IMAGR     Total Cleaned flux density     =   15.198      Jy     2106 comps
   3    2   28-FEB-2009  03:21:25     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:25     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:27     IMAGR     Field   2 min =   -9.3 MilliJy,max =    8.0 MilliJy
   3    2   28-FEB-2009  03:21:28     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.75 MilliJy
   3    2   28-FEB-2009  03:21:28     IMAGR          836 Residual map points loaded
   3    4   28-FEB-2009  03:21:28     IMAGR     Field    2 min algorithm flux=    6.065 MilliJy iter=      334
   3    3   28-FEB-2009  03:21:28     IMAGR     Field    2 Clean flux density=  -10.720 MilliJy      334 comps
   3    3   28-FEB-2009  03:21:28     IMAGR     Total Cleaned flux density     =   15.192      Jy     2221 comps
   3    2   28-FEB-2009  03:21:28     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:28     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:29     IMAGR     Field   3 min =   -7.8 MilliJy,max =    7.6 MilliJy
   3    2   28-FEB-2009  03:21:30     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.66 MilliJy
   3    2   28-FEB-2009  03:21:30     IMAGR          805 Residual map points loaded
   3    4   28-FEB-2009  03:21:30     IMAGR     Field    3 min algorithm flux=   -5.940 MilliJy iter=      273
   3    3   28-FEB-2009  03:21:30     IMAGR     Field    3 Clean flux density=   49.011 MilliJy      273 comps
   3    3   28-FEB-2009  03:21:30     IMAGR     Total Cleaned flux density     =   15.196      Jy     2336 comps
   3    2   28-FEB-2009  03:21:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:31     IMAGR     Field   4 min =   -8.1 MilliJy,max =    8.6 MilliJy
   3    3   28-FEB-2009  03:21:31     IMAGR     TRY ANOTHER FIELD: this is  6.155E-03 < Second best  6.486E-03
   3    4   28-FEB-2009  03:21:32     IMAGR     Field   6 min =   -8.4 MilliJy,max =    8.6 MilliJy
   3    2   28-FEB-2009  03:21:33     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.51 MilliJy
   3    2   28-FEB-2009  03:21:33     IMAGR         1201 Residual map points loaded
   3    4   28-FEB-2009  03:21:33     IMAGR     Field    6 min algorithm flux=   -5.830 MilliJy iter=      397
   3    3   28-FEB-2009  03:21:33     IMAGR     Field    6 Clean flux density=  154.887 MilliJy      397 comps
   3    3   28-FEB-2009  03:21:33     IMAGR     Total Cleaned flux density     =   15.193      Jy     2475 comps
   3    2   28-FEB-2009  03:21:33     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:33     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:35     IMAGR     Field   1 min =   -8.0 MilliJy,max =    7.6 MilliJy
   3    2   28-FEB-2009  03:21:35     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.29 MilliJy
   3    2   28-FEB-2009  03:21:35     IMAGR         2078 Residual map points loaded
   3    4   28-FEB-2009  03:21:35     IMAGR     Field    1 min algorithm flux=    5.655 MilliJy iter=      988
   3    3   28-FEB-2009  03:21:35     IMAGR     Field    1 Clean flux density=   14.973      Jy      988 comps
   3    3   28-FEB-2009  03:21:35     IMAGR     Total Cleaned flux density     =   15.190      Jy     2648 comps
   3    2   28-FEB-2009  03:21:35     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:35     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:47     IMAGR     Field   4 min =   -7.9 MilliJy,max =    7.9 MilliJy
   3    2   28-FEB-2009  03:21:48     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.28 MilliJy
   3    2   28-FEB-2009  03:21:48     IMAGR          757 Residual map points loaded
   3    4   28-FEB-2009  03:21:48     IMAGR     Field    4 min algorithm flux=    5.514 MilliJy iter=      286
   3    3   28-FEB-2009  03:21:48     IMAGR     Field    4 Clean flux density=   35.439 MilliJy      286 comps
   3    3   28-FEB-2009  03:21:48     IMAGR     Total Cleaned flux density     =   15.188      Jy     2767 comps
   3    2   28-FEB-2009  03:21:48     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:48     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:49     IMAGR     Field   5 min =   -8.3 MilliJy,max =    8.2 MilliJy
   3    2   28-FEB-2009  03:21:50     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.20 MilliJy
   3    2   28-FEB-2009  03:21:50     IMAGR          814 Residual map points loaded
   3    4   28-FEB-2009  03:21:50     IMAGR     Field    5 min algorithm flux=   -5.447 MilliJy iter=      332
   3    3   28-FEB-2009  03:21:50     IMAGR     Field    5 Clean flux density=    8.377 MilliJy      332 comps
   3    3   28-FEB-2009  03:21:50     IMAGR     Total Cleaned flux density     =   15.198      Jy     2897 comps
   3    2   28-FEB-2009  03:21:50     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:50     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:52     IMAGR     Field   7 min =   -8.3 MilliJy,max =    7.2 MilliJy
   3    2   28-FEB-2009  03:21:52     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.10 MilliJy
   3    2   28-FEB-2009  03:21:52     IMAGR          967 Residual map points loaded
   3    4   28-FEB-2009  03:21:52     IMAGR     Field    7 min algorithm flux=   -5.351 MilliJy iter=      430
   3    3   28-FEB-2009  03:21:52     IMAGR     Field    7 Clean flux density=  -10.393 MilliJy      430 comps
   3    3   28-FEB-2009  03:21:52     IMAGR     Total Cleaned flux density     =   15.199      Jy     3040 comps
   3    2   28-FEB-2009  03:21:52     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:52     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:21:56     IMAGR     Field   2 min =   -8.4 MilliJy,max =    7.1 MilliJy
   3    2   28-FEB-2009  03:21:58     IMAGR     BGC Clean: using  103 cell beam + residuals >     5.01 MilliJy
   3    2   28-FEB-2009  03:21:59     IMAGR          795 Residual map points loaded
   3    4   28-FEB-2009  03:21:59     IMAGR     Field    2 min algorithm flux=    5.230 MilliJy iter=      469
   3    3   28-FEB-2009  03:21:59     IMAGR     Field    2 Clean flux density=   -3.763 MilliJy      469 comps
   3    3   28-FEB-2009  03:21:59     IMAGR     Total Cleaned flux density     =   15.206      Jy     3175 comps
   3    2   28-FEB-2009  03:21:59     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:21:59     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:07     IMAGR     Field   3 min =   -7.1 MilliJy,max =    7.0 MilliJy
   3    2   28-FEB-2009  03:22:08     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.93 MilliJy
   3    2   28-FEB-2009  03:22:08     IMAGR          959 Residual map points loaded
   3    4   28-FEB-2009  03:22:08     IMAGR     Field    3 min algorithm flux=   -5.174 MilliJy iter=      431
   3    3   28-FEB-2009  03:22:08     IMAGR     Field    3 Clean flux density=   64.004 MilliJy      431 comps
   3    3   28-FEB-2009  03:22:08     IMAGR     Total Cleaned flux density     =   15.221      Jy     3333 comps
   3    2   28-FEB-2009  03:22:08     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:08     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:10     IMAGR     Field   6 min =   -7.7 MilliJy,max =    8.0 MilliJy
   3    2   28-FEB-2009  03:22:10     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.83 MilliJy
   3    2   28-FEB-2009  03:22:13     IMAGR         1161 Residual map points loaded
   3    4   28-FEB-2009  03:22:13     IMAGR     Field    6 min algorithm flux=    5.072 MilliJy iter=      562
   3    3   28-FEB-2009  03:22:13     IMAGR     Field    6 Clean flux density=  144.007 MilliJy      562 comps
   3    3   28-FEB-2009  03:22:13     IMAGR     Total Cleaned flux density     =   15.210      Jy     3498 comps
   3    2   28-FEB-2009  03:22:14     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:14     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:16     IMAGR     Field   1 min =   -7.3 MilliJy,max =    6.9 MilliJy
   3    2   28-FEB-2009  03:22:16     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.69 MilliJy
   3    2   28-FEB-2009  03:22:16     IMAGR         1094 Residual map points loaded
   3    4   28-FEB-2009  03:22:16     IMAGR     Field    1 min algorithm flux=    4.888 MilliJy iter=     1135
   3    3   28-FEB-2009  03:22:16     IMAGR     Field    1 Clean flux density=   14.972      Jy     1135 comps
   3    3   28-FEB-2009  03:22:16     IMAGR     Total Cleaned flux density     =   15.210      Jy     3645 comps
   3    2   28-FEB-2009  03:22:16     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:16     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:18     IMAGR     Field   4 min =   -7.1 MilliJy,max =    7.3 MilliJy
   3    2   28-FEB-2009  03:22:19     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.63 MilliJy
   3    2   28-FEB-2009  03:22:19     IMAGR          695 Residual map points loaded
   3    4   28-FEB-2009  03:22:19     IMAGR     Field    4 min algorithm flux=   -4.802 MilliJy iter=      421
   3    3   28-FEB-2009  03:22:19     IMAGR     Field    4 Clean flux density=   30.246 MilliJy      421 comps
   3    3   28-FEB-2009  03:22:19     IMAGR     Total Cleaned flux density     =   15.204      Jy     3780 comps
   3    2   28-FEB-2009  03:22:19     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:19     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:20     IMAGR     Field   5 min =   -7.4 MilliJy,max =    6.9 MilliJy
   3    2   28-FEB-2009  03:22:21     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.57 MilliJy
   3    2   28-FEB-2009  03:22:21     IMAGR          968 Residual map points loaded
   3    4   28-FEB-2009  03:22:21     IMAGR     Field    5 min algorithm flux=   -4.778 MilliJy iter=      505
   3    3   28-FEB-2009  03:22:21     IMAGR     Field    5 Clean flux density=  905.969 MicroJy      505 comps
   3    3   28-FEB-2009  03:22:21     IMAGR     Total Cleaned flux density     =   15.197      Jy     3953 comps
   3    2   28-FEB-2009  03:22:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:23     IMAGR     Field   7 min =   -7.9 MilliJy,max =    6.4 MilliJy
   3    2   28-FEB-2009  03:22:24     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.49 MilliJy
   3    2   28-FEB-2009  03:22:24     IMAGR          842 Residual map points loaded
   3    4   28-FEB-2009  03:22:24     IMAGR     Field    7 min algorithm flux=    4.655 MilliJy iter=      579
   3    3   28-FEB-2009  03:22:24     IMAGR     Field    7 Clean flux density=  -17.556 MilliJy      579 comps
   3    3   28-FEB-2009  03:22:24     IMAGR     Total Cleaned flux density     =   15.190      Jy     4102 comps
   3    2   28-FEB-2009  03:22:24     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:24     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:25     IMAGR     Field   2 min =   -7.7 MilliJy,max =    6.3 MilliJy
   3    3   28-FEB-2009  03:22:25     IMAGR     TRY ANOTHER FIELD: this is  4.710E-03 < Second best  4.965E-03
   3    4   28-FEB-2009  03:22:26     IMAGR     Field   3 min =   -5.9 MilliJy,max =    6.4 MilliJy
   3    2   28-FEB-2009  03:22:27     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.34 MilliJy
   3    2   28-FEB-2009  03:22:27     IMAGR         1309 Residual map points loaded
   3    4   28-FEB-2009  03:22:27     IMAGR     Field    3 min algorithm flux=    4.549 MilliJy iter=      631
   3    3   28-FEB-2009  03:22:27     IMAGR     Field    3 Clean flux density=   78.876 MilliJy      631 comps
   3    3   28-FEB-2009  03:22:27     IMAGR     Total Cleaned flux density     =   15.205      Jy     4302 comps
   3    2   28-FEB-2009  03:22:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:30     IMAGR     Field   6 min =   -7.0 MilliJy,max =    7.5 MilliJy
   3    2   28-FEB-2009  03:22:31     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.26 MilliJy
   3    2   28-FEB-2009  03:22:31     IMAGR         1363 Residual map points loaded
   3    4   28-FEB-2009  03:22:31     IMAGR     Field    6 min algorithm flux=    4.457 MilliJy iter=      757
   3    3   28-FEB-2009  03:22:31     IMAGR     Field    6 Clean flux density=  149.968 MilliJy      757 comps
   3    3   28-FEB-2009  03:22:31     IMAGR     Total Cleaned flux density     =   15.211      Jy     4497 comps
   3    2   28-FEB-2009  03:22:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:39     IMAGR     Field   2 min =   -7.4 MilliJy,max =    6.3 MilliJy
   3    2   28-FEB-2009  03:22:40     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.25 MilliJy
   3    2   28-FEB-2009  03:22:40     IMAGR          968 Residual map points loaded
   3    4   28-FEB-2009  03:22:40     IMAGR     Field    2 min algorithm flux=    4.424 MilliJy iter=      648
   3    3   28-FEB-2009  03:22:40     IMAGR     Field    2 Clean flux density=    4.041 MilliJy      648 comps
   3    3   28-FEB-2009  03:22:40     IMAGR     Total Cleaned flux density     =   15.219      Jy     4676 comps
   3    2   28-FEB-2009  03:22:40     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:40     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:42     IMAGR     Field   1 min =   -6.3 MilliJy,max =    6.1 MilliJy
   3    2   28-FEB-2009  03:22:43     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.15 MilliJy
   3    2   28-FEB-2009  03:22:43     IMAGR          507 Residual map points loaded
   3    4   28-FEB-2009  03:22:43     IMAGR     Field    1 min algorithm flux=   -4.248 MilliJy iter=     1247
   3    3   28-FEB-2009  03:22:43     IMAGR     Field    1 Clean flux density=   14.969      Jy     1247 comps
   3    3   28-FEB-2009  03:22:43     IMAGR     Total Cleaned flux density     =   15.216      Jy     4788 comps
   3    2   28-FEB-2009  03:22:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:45     IMAGR     Field   4 min =   -6.5 MilliJy,max =    6.6 MilliJy
   3    2   28-FEB-2009  03:22:45     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.09 MilliJy
   3    2   28-FEB-2009  03:22:45     IMAGR          719 Residual map points loaded
   3    4   28-FEB-2009  03:22:45     IMAGR     Field    4 min algorithm flux=    4.224 MilliJy iter=      574
   3    3   28-FEB-2009  03:22:45     IMAGR     Field    4 Clean flux density=   24.473 MilliJy      574 comps
   3    3   28-FEB-2009  03:22:45     IMAGR     Total Cleaned flux density     =   15.210      Jy     4941 comps
   3    2   28-FEB-2009  03:22:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:47     IMAGR     Field   5 min =   -6.5 MilliJy,max =    6.3 MilliJy
   3    2   28-FEB-2009  03:22:48     IMAGR     BGC Clean: using  103 cell beam + residuals >     4.03 MilliJy
   3    2   28-FEB-2009  03:22:48     IMAGR          985 Residual map points loaded
   3    4   28-FEB-2009  03:22:48     IMAGR     Field    5 min algorithm flux=   -4.185 MilliJy iter=      698
   3    3   28-FEB-2009  03:22:48     IMAGR     Field    5 Clean flux density=    5.855 MilliJy      698 comps
   3    3   28-FEB-2009  03:22:48     IMAGR     Total Cleaned flux density     =   15.215      Jy     5134 comps
   3    2   28-FEB-2009  03:22:48     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:48     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:22:56     IMAGR     Field   7 min =   -7.5 MilliJy,max =    5.8 MilliJy
   3    2   28-FEB-2009  03:22:57     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.96 MilliJy
   3    2   28-FEB-2009  03:22:57     IMAGR          672 Residual map points loaded
   3    4   28-FEB-2009  03:22:57     IMAGR     Field    7 min algorithm flux=    4.071 MilliJy iter=      728
   3    3   28-FEB-2009  03:22:57     IMAGR     Field    7 Clean flux density=  -15.561 MilliJy      728 comps
   3    3   28-FEB-2009  03:22:57     IMAGR     Total Cleaned flux density     =   15.217      Jy     5283 comps
   3    2   28-FEB-2009  03:22:57     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:22:57     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:00     IMAGR     Field   3 min =   -5.6 MilliJy,max =    5.8 MilliJy
   3    2   28-FEB-2009  03:23:02     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.89 MilliJy
   3    2   28-FEB-2009  03:23:02     IMAGR          996 Residual map points loaded
   3    4   28-FEB-2009  03:23:04     IMAGR     Field    3 min algorithm flux=   -4.029 MilliJy iter=      824
   3    3   28-FEB-2009  03:23:04     IMAGR     Field    3 Clean flux density=   87.587 MilliJy      824 comps
   3    3   28-FEB-2009  03:23:04     IMAGR     Total Cleaned flux density     =   15.226      Jy     5476 comps
   3    2   28-FEB-2009  03:23:05     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:05     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:07     IMAGR     Field   6 min =   -6.4 MilliJy,max =    6.9 MilliJy
   3    2   28-FEB-2009  03:23:07     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.82 MilliJy
   3    2   28-FEB-2009  03:23:07     IMAGR         1185 Residual map points loaded
   3    4   28-FEB-2009  03:23:07     IMAGR     Field    6 min algorithm flux=    3.960 MilliJy iter=      961
   3    3   28-FEB-2009  03:23:07     IMAGR     Field    6 Clean flux density=  145.104 MilliJy      961 comps
   3    3   28-FEB-2009  03:23:07     IMAGR     Total Cleaned flux density     =   15.221      Jy     5680 comps
   3    2   28-FEB-2009  03:23:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:09     IMAGR     Field   2 min =   -6.6 MilliJy,max =    6.0 MilliJy
   3    2   28-FEB-2009  03:23:10     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.75 MilliJy
   3    2   28-FEB-2009  03:23:10     IMAGR          876 Residual map points loaded
   3    4   28-FEB-2009  03:23:10     IMAGR     Field    2 min algorithm flux=    3.874 MilliJy iter=      837
   3    3   28-FEB-2009  03:23:10     IMAGR     Field    2 Clean flux density= -338.585 MicroJy      837 comps
   3    3   28-FEB-2009  03:23:10     IMAGR     Total Cleaned flux density     =   15.216      Jy     5869 comps
   3    2   28-FEB-2009  03:23:10     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:10     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:12     IMAGR     Field   1 min =   -6.0 MilliJy,max =    5.6 MilliJy
   3    2   28-FEB-2009  03:23:13     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.68 MilliJy
   3    2   28-FEB-2009  03:23:13     IMAGR          500 Residual map points loaded
   3    4   28-FEB-2009  03:23:13     IMAGR     Field    1 min algorithm flux=    3.761 MilliJy iter=     1366
   3    3   28-FEB-2009  03:23:13     IMAGR     Field    1 Clean flux density=   14.966      Jy     1366 comps
   3    3   28-FEB-2009  03:23:13     IMAGR     Total Cleaned flux density     =   15.213      Jy     5988 comps
   3    2   28-FEB-2009  03:23:13     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:13     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:14     IMAGR     Field   4 min =   -6.1 MilliJy,max =    5.8 MilliJy
   3    2   28-FEB-2009  03:23:15     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.63 MilliJy
   3    2   28-FEB-2009  03:23:15     IMAGR          789 Residual map points loaded
   3    4   28-FEB-2009  03:23:15     IMAGR     Field    4 min algorithm flux=   -3.745 MilliJy iter=      754
   3    3   28-FEB-2009  03:23:15     IMAGR     Field    4 Clean flux density=   25.226 MilliJy      754 comps
   3    3   28-FEB-2009  03:23:15     IMAGR     Total Cleaned flux density     =   15.214      Jy     6168 comps
   3    2   28-FEB-2009  03:23:15     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:15     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:17     IMAGR     Field   5 min =   -6.0 MilliJy,max =    5.8 MilliJy
   3    2   28-FEB-2009  03:23:18     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.58 MilliJy
   3    2   28-FEB-2009  03:23:18     IMAGR         1075 Residual map points loaded
   3    4   28-FEB-2009  03:23:18     IMAGR     Field    5 min algorithm flux=   -3.707 MilliJy iter=      919
   3    3   28-FEB-2009  03:23:18     IMAGR     Field    5 Clean flux density=   12.387 MilliJy      919 comps
   3    3   28-FEB-2009  03:23:18     IMAGR     Total Cleaned flux density     =   15.220      Jy     6389 comps
   3    2   28-FEB-2009  03:23:18     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:18     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:22     IMAGR     Field   7 min =   -7.0 MilliJy,max =    5.1 MilliJy
   3    2   28-FEB-2009  03:23:23     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.52 MilliJy
   3    2   28-FEB-2009  03:23:24     IMAGR          585 Residual map points loaded
   3    4   28-FEB-2009  03:23:24     IMAGR     Field    7 min algorithm flux=    3.606 MilliJy iter=      875
   3    3   28-FEB-2009  03:23:24     IMAGR     Field    7 Clean flux density=  -21.882 MilliJy      875 comps
   3    3   28-FEB-2009  03:23:24     IMAGR     Total Cleaned flux density     =   15.214      Jy     6536 comps
   3    2   28-FEB-2009  03:23:24     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:24     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:25     IMAGR     Field   3 min =   -5.2 MilliJy,max =    5.2 MilliJy
   3    2   28-FEB-2009  03:23:26     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.46 MilliJy
   3    2   28-FEB-2009  03:23:26     IMAGR         1066 Residual map points loaded
   3    4   28-FEB-2009  03:23:26     IMAGR     Field    3 min algorithm flux=    3.580 MilliJy iter=     1040
   3    3   28-FEB-2009  03:23:26     IMAGR     Field    3 Clean flux density=   90.544 MilliJy     1040 comps
   3    3   28-FEB-2009  03:23:26     IMAGR     Total Cleaned flux density     =   15.217      Jy     6752 comps
   3    2   28-FEB-2009  03:23:26     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:26     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:28     IMAGR     Field   6 min =   -5.9 MilliJy,max =    6.4 MilliJy
   3    2   28-FEB-2009  03:23:30     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.40 MilliJy
   3    2   28-FEB-2009  03:23:30     IMAGR         1359 Residual map points loaded
   3    4   28-FEB-2009  03:23:30     IMAGR     Field    6 min algorithm flux=   -3.526 MilliJy iter=     1202
   3    3   28-FEB-2009  03:23:30     IMAGR     Field    6 Clean flux density=  141.230 MilliJy     1202 comps
   3    3   28-FEB-2009  03:23:30     IMAGR     Total Cleaned flux density     =   15.213      Jy     6993 comps
   3    2   28-FEB-2009  03:23:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:32     IMAGR     Field   2 min =   -5.9 MilliJy,max =    5.6 MilliJy
   3    2   28-FEB-2009  03:23:33     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.35 MilliJy
   3    2   28-FEB-2009  03:23:33     IMAGR          736 Residual map points loaded
   3    4   28-FEB-2009  03:23:33     IMAGR     Field    2 min algorithm flux=   -3.434 MilliJy iter=     1017
   3    3   28-FEB-2009  03:23:33     IMAGR     Field    2 Clean flux density=  470.724 MicroJy     1017 comps
   3    3   28-FEB-2009  03:23:33     IMAGR     Total Cleaned flux density     =   15.214      Jy     7173 comps
   3    2   28-FEB-2009  03:23:33     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:33     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:35     IMAGR     Field   1 min =   -5.4 MilliJy,max =    5.0 MilliJy
   3    2   28-FEB-2009  03:23:36     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.30 MilliJy
   3    2   28-FEB-2009  03:23:36     IMAGR          400 Residual map points loaded
   3    4   28-FEB-2009  03:23:36     IMAGR     Field    1 min algorithm flux=   -3.354 MilliJy iter=     1475
   3    3   28-FEB-2009  03:23:36     IMAGR     Field    1 Clean flux density=   14.966      Jy     1475 comps
   3    3   28-FEB-2009  03:23:36     IMAGR     Total Cleaned flux density     =   15.214      Jy     7282 comps
   3    2   28-FEB-2009  03:23:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:39     IMAGR     Field   4 min =   -5.6 MilliJy,max =    5.3 MilliJy
   3    2   28-FEB-2009  03:23:42     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.25 MilliJy
   3    2   28-FEB-2009  03:23:43     IMAGR          876 Residual map points loaded
   3    4   28-FEB-2009  03:23:43     IMAGR     Field    4 min algorithm flux=   -3.346 MilliJy iter=      954
   3    3   28-FEB-2009  03:23:43     IMAGR     Field    4 Clean flux density=   14.429 MilliJy      954 comps
   3    3   28-FEB-2009  03:23:43     IMAGR     Total Cleaned flux density     =   15.204      Jy     7482 comps
   3    2   28-FEB-2009  03:23:44     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:44     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:46     IMAGR     Field   5 min =   -5.6 MilliJy,max =    5.5 MilliJy
   3    2   28-FEB-2009  03:23:47     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.20 MilliJy
   3    2   28-FEB-2009  03:23:47     IMAGR         1038 Residual map points loaded
   3    4   28-FEB-2009  03:23:47     IMAGR     Field    5 min algorithm flux=    3.302 MilliJy iter=     1147
   3    3   28-FEB-2009  03:23:47     IMAGR     Field    5 Clean flux density=   15.885 MilliJy     1147 comps
   3    3   28-FEB-2009  03:23:47     IMAGR     Total Cleaned flux density     =   15.207      Jy     7710 comps
   3    2   28-FEB-2009  03:23:47     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:47     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:52     IMAGR     Field   7 min =   -6.5 MilliJy,max =    4.7 MilliJy
   3    2   28-FEB-2009  03:23:54     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.16 MilliJy
   3    2   28-FEB-2009  03:23:55     IMAGR          564 Residual map points loaded
   3    4   28-FEB-2009  03:23:55     IMAGR     Field    7 min algorithm flux=   -3.220 MilliJy iter=     1024
   3    3   28-FEB-2009  03:23:55     IMAGR     Field    7 Clean flux density=  -22.212 MilliJy     1024 comps
   3    3   28-FEB-2009  03:23:55     IMAGR     Total Cleaned flux density     =   15.207      Jy     7859 comps
   3    2   28-FEB-2009  03:23:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:23:57     IMAGR     Field   3 min =   -4.7 MilliJy,max =    4.8 MilliJy
   3    2   28-FEB-2009  03:23:58     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.10 MilliJy
   3    2   28-FEB-2009  03:23:58     IMAGR         1042 Residual map points loaded
   3    4   28-FEB-2009  03:23:58     IMAGR     Field    3 min algorithm flux=   -3.194 MilliJy iter=     1268
   3    3   28-FEB-2009  03:23:58     IMAGR     Field    3 Clean flux density=   91.925 MilliJy     1268 comps
   3    3   28-FEB-2009  03:23:58     IMAGR     Total Cleaned flux density     =   15.208      Jy     8087 comps
   3    2   28-FEB-2009  03:23:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:23:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:00     IMAGR     Field   6 min =   -5.4 MilliJy,max =    5.7 MilliJy
   3    2   28-FEB-2009  03:24:01     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.04 MilliJy
   3    2   28-FEB-2009  03:24:01     IMAGR         1361 Residual map points loaded
   3    4   28-FEB-2009  03:24:01     IMAGR     Field    6 min algorithm flux=    3.147 MilliJy iter=     1472
   3    3   28-FEB-2009  03:24:01     IMAGR     Field    6 Clean flux density=  136.644 MilliJy     1472 comps
   3    3   28-FEB-2009  03:24:01     IMAGR     Total Cleaned flux density     =   15.204      Jy     8357 comps
   3    2   28-FEB-2009  03:24:01     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:01     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:05     IMAGR     Field   2 min =   -5.5 MilliJy,max =    5.2 MilliJy
   3    2   28-FEB-2009  03:24:06     IMAGR     BGC Clean: using  103 cell beam + residuals >     3.00 MilliJy
   3    2   28-FEB-2009  03:24:06     IMAGR          752 Residual map points loaded
   3    4   28-FEB-2009  03:24:06     IMAGR     Field    2 min algorithm flux=    3.073 MilliJy iter=     1213
   3    3   28-FEB-2009  03:24:06     IMAGR     Field    2 Clean flux density=   -3.904 MilliJy     1213 comps
   3    3   28-FEB-2009  03:24:06     IMAGR     Total Cleaned flux density     =   15.199      Jy     8553 comps
   3    2   28-FEB-2009  03:24:06     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:06     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:11     IMAGR     Field   1 min =   -4.9 MilliJy,max =    4.4 MilliJy
   3    2   28-FEB-2009  03:24:12     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.96 MilliJy
   3    2   28-FEB-2009  03:24:13     IMAGR          314 Residual map points loaded
   3    4   28-FEB-2009  03:24:13     IMAGR     Field    1 min algorithm flux=   -3.003 MilliJy iter=     1579
   3    3   28-FEB-2009  03:24:13     IMAGR     Field    1 Clean flux density=   14.967      Jy     1579 comps
   3    3   28-FEB-2009  03:24:13     IMAGR     Total Cleaned flux density     =   15.200      Jy     8657 comps
   3    2   28-FEB-2009  03:24:13     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:13     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:14     IMAGR     Field   4 min =   -5.4 MilliJy,max =    5.0 MilliJy
   3    2   28-FEB-2009  03:24:15     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.92 MilliJy
   3    2   28-FEB-2009  03:24:15     IMAGR          834 Residual map points loaded
   3    4   28-FEB-2009  03:24:15     IMAGR     Field    4 min algorithm flux=   -2.992 MilliJy iter=     1156
   3    3   28-FEB-2009  03:24:15     IMAGR     Field    4 Clean flux density=   24.902 MilliJy     1156 comps
   3    3   28-FEB-2009  03:24:15     IMAGR     Total Cleaned flux density     =   15.210      Jy     8859 comps
   3    2   28-FEB-2009  03:24:15     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:15     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:17     IMAGR     Field   5 min =   -4.9 MilliJy,max =    5.0 MilliJy
   3    2   28-FEB-2009  03:24:18     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.87 MilliJy
   3    2   28-FEB-2009  03:24:18     IMAGR         1049 Residual map points loaded
   3    4   28-FEB-2009  03:24:18     IMAGR     Field    5 min algorithm flux=   -2.957 MilliJy iter=     1398
   3    3   28-FEB-2009  03:24:18     IMAGR     Field    5 Clean flux density=   24.066 MilliJy     1398 comps
   3    3   28-FEB-2009  03:24:18     IMAGR     Total Cleaned flux density     =   15.218      Jy     9110 comps
   3    2   28-FEB-2009  03:24:18     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:18     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:20     IMAGR     Field   7 min =   -6.1 MilliJy,max =    4.3 MilliJy
   3    2   28-FEB-2009  03:24:21     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.84 MilliJy
   3    2   28-FEB-2009  03:24:21     IMAGR          614 Residual map points loaded
   3    4   28-FEB-2009  03:24:21     IMAGR     Field    7 min algorithm flux=    2.893 MilliJy iter=     1198
   3    3   28-FEB-2009  03:24:21     IMAGR     Field    7 Clean flux density=  -26.261 MilliJy     1198 comps
   3    3   28-FEB-2009  03:24:21     IMAGR     Total Cleaned flux density     =   15.214      Jy     9284 comps
   3    2   28-FEB-2009  03:24:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:23     IMAGR     Field   3 min =   -4.3 MilliJy,max =    4.7 MilliJy
   3    2   28-FEB-2009  03:24:24     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.79 MilliJy
   3    2   28-FEB-2009  03:24:24     IMAGR         1181 Residual map points loaded
   3    4   28-FEB-2009  03:24:24     IMAGR     Field    3 min algorithm flux=   -2.871 MilliJy iter=     1531
   3    3   28-FEB-2009  03:24:24     IMAGR     Field    3 Clean flux density=   96.460 MilliJy     1531 comps
   3    3   28-FEB-2009  03:24:24     IMAGR     Total Cleaned flux density     =   15.219      Jy     9547 comps
   3    2   28-FEB-2009  03:24:24     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:24     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:27     IMAGR     Field   6 min =   -4.8 MilliJy,max =    5.4 MilliJy
   3    2   28-FEB-2009  03:24:27     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.74 MilliJy
   3    2   28-FEB-2009  03:24:27     IMAGR         1351 Residual map points loaded
   3    4   28-FEB-2009  03:24:27     IMAGR     Field    6 min algorithm flux=   -2.819 MilliJy iter=     1748
   3    3   28-FEB-2009  03:24:27     IMAGR     Field    6 Clean flux density=  133.286 MilliJy     1748 comps
   3    3   28-FEB-2009  03:24:27     IMAGR     Total Cleaned flux density     =   15.216      Jy     9823 comps
   3    2   28-FEB-2009  03:24:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:30     IMAGR     Field   2 min =   -4.9 MilliJy,max =    4.9 MilliJy
   3    2   28-FEB-2009  03:24:31     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.70 MilliJy
   3    2   28-FEB-2009  03:24:31     IMAGR          688 Residual map points loaded
   3    4   28-FEB-2009  03:24:31     IMAGR     Field    2 min algorithm flux=   -2.756 MilliJy iter=     1410
   3    3   28-FEB-2009  03:24:31     IMAGR     Field    2 Clean flux density=   -1.910 MilliJy     1410 comps
   3    3   28-FEB-2009  03:24:31     IMAGR     Total Cleaned flux density     =   15.218      Jy    10020 comps
   3    2   28-FEB-2009  03:24:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:33     IMAGR     Field   1 min =   -4.3 MilliJy,max =    3.9 MilliJy
   3    2   28-FEB-2009  03:24:33     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.67 MilliJy
   3    2   28-FEB-2009  03:24:33     IMAGR          279 Residual map points loaded
   3    4   28-FEB-2009  03:24:33     IMAGR     Field    1 min algorithm flux=    2.698 MilliJy iter=     1678
   3    3   28-FEB-2009  03:24:33     IMAGR     Field    1 Clean flux density=   14.966      Jy     1678 comps
   3    3   28-FEB-2009  03:24:33     IMAGR     Total Cleaned flux density     =   15.217      Jy    10119 comps
   3    2   28-FEB-2009  03:24:33     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:33     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:35     IMAGR     Field   4 min =   -5.0 MilliJy,max =    4.5 MilliJy
   3    2   28-FEB-2009  03:24:35     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.63 MilliJy
   3    2   28-FEB-2009  03:24:35     IMAGR          908 Residual map points loaded
   3    4   28-FEB-2009  03:24:35     IMAGR     Field    4 min algorithm flux=   -2.698 MilliJy iter=     1395
   3    3   28-FEB-2009  03:24:35     IMAGR     Field    4 Clean flux density=   15.161 MilliJy     1395 comps
   3    3   28-FEB-2009  03:24:35     IMAGR     Total Cleaned flux density     =   15.207      Jy    10358 comps
   3    2   28-FEB-2009  03:24:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:38     IMAGR     Field   5 min =   -4.5 MilliJy,max =    4.6 MilliJy
   3    2   28-FEB-2009  03:24:38     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.59 MilliJy
   3    2   28-FEB-2009  03:24:39     IMAGR          986 Residual map points loaded
   3    4   28-FEB-2009  03:24:39     IMAGR     Field    5 min algorithm flux=   -2.657 MilliJy iter=     1643
   3    3   28-FEB-2009  03:24:39     IMAGR     Field    5 Clean flux density=   23.896 MilliJy     1643 comps
   3    3   28-FEB-2009  03:24:39     IMAGR     Total Cleaned flux density     =   15.207      Jy    10603 comps
   3    2   28-FEB-2009  03:24:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:41     IMAGR     Field   7 min =   -5.8 MilliJy,max =    4.1 MilliJy
   3    2   28-FEB-2009  03:24:42     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.56 MilliJy
   3    2   28-FEB-2009  03:24:42     IMAGR          589 Residual map points loaded
   3    4   28-FEB-2009  03:24:42     IMAGR     Field    7 min algorithm flux=   -2.605 MilliJy iter=     1380
   3    3   28-FEB-2009  03:24:42     IMAGR     Field    7 Clean flux density=  -22.581 MilliJy     1380 comps
   3    3   28-FEB-2009  03:24:42     IMAGR     Total Cleaned flux density     =   15.211      Jy    10785 comps
   3    2   28-FEB-2009  03:24:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:43     IMAGR     Field   3 min =   -4.0 MilliJy,max =    4.6 MilliJy
   3    2   28-FEB-2009  03:24:44     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.52 MilliJy
   3    2   28-FEB-2009  03:24:44     IMAGR         1346 Residual map points loaded
   3    4   28-FEB-2009  03:24:44     IMAGR     Field    3 min algorithm flux=   -2.583 MilliJy iter=     1815
   3    3   28-FEB-2009  03:24:44     IMAGR     Field    3 Clean flux density=  108.827 MilliJy     1815 comps
   3    3   28-FEB-2009  03:24:44     IMAGR     Total Cleaned flux density     =   15.223      Jy    11069 comps
   3    2   28-FEB-2009  03:24:44     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:44     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:47     IMAGR     Field   6 min =   -4.5 MilliJy,max =    5.0 MilliJy
   3    2   28-FEB-2009  03:24:47     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.47 MilliJy
   3    2   28-FEB-2009  03:24:48     IMAGR         1316 Residual map points loaded
   3    4   28-FEB-2009  03:24:48     IMAGR     Field    6 min algorithm flux=    2.536 MilliJy iter=     2037
   3    3   28-FEB-2009  03:24:48     IMAGR     Field    6 Clean flux density=  131.536 MilliJy     2037 comps
   3    3   28-FEB-2009  03:24:48     IMAGR     Total Cleaned flux density     =   15.221      Jy    11358 comps
   3    2   28-FEB-2009  03:24:48     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:48     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:52     IMAGR     Field   2 min =   -4.5 MilliJy,max =    4.7 MilliJy
   3    2   28-FEB-2009  03:24:52     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.44 MilliJy
   3    2   28-FEB-2009  03:24:52     IMAGR          730 Residual map points loaded
   3    4   28-FEB-2009  03:24:52     IMAGR     Field    2 min algorithm flux=   -2.484 MilliJy iter=     1614
   3    3   28-FEB-2009  03:24:52     IMAGR     Field    2 Clean flux density=   -1.396 MilliJy     1614 comps
   3    3   28-FEB-2009  03:24:52     IMAGR     Total Cleaned flux density     =   15.222      Jy    11562 comps
   3    2   28-FEB-2009  03:24:52     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:52     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:24:55     IMAGR     Field   1 min =   -4.2 MilliJy,max =    3.5 MilliJy
   3    2   28-FEB-2009  03:24:55     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.41 MilliJy
   3    2   28-FEB-2009  03:24:55     IMAGR          240 Residual map points loaded
   3    4   28-FEB-2009  03:24:55     IMAGR     Field    1 min algorithm flux=    2.436 MilliJy iter=     1774
   3    3   28-FEB-2009  03:24:55     IMAGR     Field    1 Clean flux density=   14.965      Jy     1774 comps
   3    3   28-FEB-2009  03:24:55     IMAGR     Total Cleaned flux density     =   15.221      Jy    11658 comps
   3    2   28-FEB-2009  03:24:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:24:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:00     IMAGR     Field   4 min =   -4.8 MilliJy,max =    4.2 MilliJy
   3    2   28-FEB-2009  03:25:00     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.38 MilliJy
   3    2   28-FEB-2009  03:25:00     IMAGR          903 Residual map points loaded
   3    4   28-FEB-2009  03:25:00     IMAGR     Field    4 min algorithm flux=    2.433 MilliJy iter=     1639
   3    3   28-FEB-2009  03:25:00     IMAGR     Field    4 Clean flux density=   13.274 MilliJy     1639 comps
   3    3   28-FEB-2009  03:25:00     IMAGR     Total Cleaned flux density     =   15.219      Jy    11902 comps
   3    2   28-FEB-2009  03:25:00     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:00     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:04     IMAGR     Field   5 min =   -4.2 MilliJy,max =    4.3 MilliJy
   3    2   28-FEB-2009  03:25:05     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.34 MilliJy
   3    2   28-FEB-2009  03:25:05     IMAGR         1151 Residual map points loaded
   3    4   28-FEB-2009  03:25:05     IMAGR     Field    5 min algorithm flux=   -2.401 MilliJy iter=     1923
   3    3   28-FEB-2009  03:25:05     IMAGR     Field    5 Clean flux density=   21.955 MilliJy     1923 comps
   3    3   28-FEB-2009  03:25:05     IMAGR     Total Cleaned flux density     =   15.217      Jy    12182 comps
   3    2   28-FEB-2009  03:25:05     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:05     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:07     IMAGR     Field   7 min =   -5.3 MilliJy,max =    3.9 MilliJy
   3    2   28-FEB-2009  03:25:08     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.32 MilliJy
   3    2   28-FEB-2009  03:25:08     IMAGR          549 Residual map points loaded
   3    4   28-FEB-2009  03:25:08     IMAGR     Field    7 min algorithm flux=    2.352 MilliJy iter=     1568
   3    3   28-FEB-2009  03:25:08     IMAGR     Field    7 Clean flux density=  -24.955 MilliJy     1568 comps
   3    3   28-FEB-2009  03:25:08     IMAGR     Total Cleaned flux density     =   15.214      Jy    12370 comps
   3    2   28-FEB-2009  03:25:10     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:10     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:12     IMAGR     Field   3 min =   -3.6 MilliJy,max =    4.2 MilliJy
   3    2   28-FEB-2009  03:25:12     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.28 MilliJy
   3    2   28-FEB-2009  03:25:12     IMAGR         1293 Residual map points loaded
   3    4   28-FEB-2009  03:25:12     IMAGR     Field    3 min algorithm flux=    2.334 MilliJy iter=     2121
   3    3   28-FEB-2009  03:25:12     IMAGR     Field    3 Clean flux density=  104.954 MilliJy     2121 comps
   3    3   28-FEB-2009  03:25:12     IMAGR     Total Cleaned flux density     =   15.211      Jy    12676 comps
   3    2   28-FEB-2009  03:25:12     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:12     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:16     IMAGR     Field   6 min =   -4.4 MilliJy,max =    4.6 MilliJy
   3    2   28-FEB-2009  03:25:17     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.23 MilliJy
   3    2   28-FEB-2009  03:25:17     IMAGR         1324 Residual map points loaded
   3    4   28-FEB-2009  03:25:17     IMAGR     Field    6 min algorithm flux=   -2.290 MilliJy iter=     2340
   3    3   28-FEB-2009  03:25:17     IMAGR     Field    6 Clean flux density=  135.485 MilliJy     2340 comps
   3    3   28-FEB-2009  03:25:17     IMAGR     Total Cleaned flux density     =   15.215      Jy    12979 comps
   3    2   28-FEB-2009  03:25:17     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:17     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:20     IMAGR     Field   2 min =   -4.0 MilliJy,max =    4.3 MilliJy
   3    2   28-FEB-2009  03:25:22     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.21 MilliJy
   3    2   28-FEB-2009  03:25:22     IMAGR          682 Residual map points loaded
   3    4   28-FEB-2009  03:25:22     IMAGR     Field    2 min algorithm flux=   -2.244 MilliJy iter=     1824
   3    3   28-FEB-2009  03:25:22     IMAGR     Field    2 Clean flux density=  394.265 MicroJy     1824 comps
   3    3   28-FEB-2009  03:25:22     IMAGR     Total Cleaned flux density     =   15.216      Jy    13189 comps
   3    2   28-FEB-2009  03:25:22     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:22     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:28     IMAGR     Field   1 min =   -3.6 MilliJy,max =    3.2 MilliJy
   3    2   28-FEB-2009  03:25:29     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.19 MilliJy
   3    2   28-FEB-2009  03:25:29     IMAGR          182 Residual map points loaded
   3    4   28-FEB-2009  03:25:29     IMAGR     Field    1 min algorithm flux=   -2.201 MilliJy iter=     1854
   3    3   28-FEB-2009  03:25:29     IMAGR     Field    1 Clean flux density=   14.965      Jy     1854 comps
   3    3   28-FEB-2009  03:25:29     IMAGR     Total Cleaned flux density     =   15.216      Jy    13269 comps
   3    2   28-FEB-2009  03:25:29     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:29     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:31     IMAGR     Field   4 min =   -4.5 MilliJy,max =    3.9 MilliJy
   3    2   28-FEB-2009  03:25:32     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.16 MilliJy
   3    2   28-FEB-2009  03:25:32     IMAGR         1029 Residual map points loaded
   3    4   28-FEB-2009  03:25:32     IMAGR     Field    4 min algorithm flux=    2.205 MilliJy iter=     1919
   3    3   28-FEB-2009  03:25:32     IMAGR     Field    4 Clean flux density=    4.202 MilliJy     1919 comps
   3    3   28-FEB-2009  03:25:32     IMAGR     Total Cleaned flux density     =   15.207      Jy    13549 comps
   3    2   28-FEB-2009  03:25:32     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:32     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:35     IMAGR     Field   5 min =   -3.8 MilliJy,max =    4.1 MilliJy
   3    2   28-FEB-2009  03:25:35     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.12 MilliJy
   3    2   28-FEB-2009  03:25:35     IMAGR         1096 Residual map points loaded
   3    4   28-FEB-2009  03:25:37     IMAGR     Field    5 min algorithm flux=    2.169 MilliJy iter=     2211
   3    3   28-FEB-2009  03:25:37     IMAGR     Field    5 Clean flux density=   24.697 MilliJy     2211 comps
   3    3   28-FEB-2009  03:25:37     IMAGR     Total Cleaned flux density     =   15.210      Jy    13837 comps
   3    2   28-FEB-2009  03:25:38     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:38     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:41     IMAGR     Field   7 min =   -5.0 MilliJy,max =    3.7 MilliJy
   3    2   28-FEB-2009  03:25:42     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.10 MilliJy
   3    2   28-FEB-2009  03:25:42     IMAGR          595 Residual map points loaded
   3    4   28-FEB-2009  03:25:42     IMAGR     Field    7 min algorithm flux=   -2.129 MilliJy iter=     1763
   3    3   28-FEB-2009  03:25:42     IMAGR     Field    7 Clean flux density=  -23.446 MilliJy     1763 comps
   3    3   28-FEB-2009  03:25:42     IMAGR     Total Cleaned flux density     =   15.211      Jy    14032 comps
   3    2   28-FEB-2009  03:25:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:44     IMAGR     Field   3 min =   -3.4 MilliJy,max =    4.0 MilliJy
   3    2   28-FEB-2009  03:25:44     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.06 MilliJy
   3    2   28-FEB-2009  03:25:44     IMAGR         1287 Residual map points loaded
   3    4   28-FEB-2009  03:25:44     IMAGR     Field    3 min algorithm flux=   -2.111 MilliJy iter=     2437
   3    3   28-FEB-2009  03:25:44     IMAGR     Field    3 Clean flux density=  110.660 MilliJy     2437 comps
   3    3   28-FEB-2009  03:25:44     IMAGR     Total Cleaned flux density     =   15.217      Jy    14348 comps
   3    2   28-FEB-2009  03:25:44     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:44     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:47     IMAGR     Field   6 min =   -4.0 MilliJy,max =    4.3 MilliJy
   3    2   28-FEB-2009  03:25:48     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.03 MilliJy
   3    2   28-FEB-2009  03:25:48     IMAGR         1456 Residual map points loaded
   3    4   28-FEB-2009  03:25:48     IMAGR     Field    6 min algorithm flux=    2.076 MilliJy iter=     2671
   3    3   28-FEB-2009  03:25:48     IMAGR     Field    6 Clean flux density=  136.052 MilliJy     2671 comps
   3    3   28-FEB-2009  03:25:48     IMAGR     Total Cleaned flux density     =   15.217      Jy    14679 comps
   3    2   28-FEB-2009  03:25:49     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:49     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:52     IMAGR     Field   2 min =   -3.6 MilliJy,max =    4.0 MilliJy
   3    2   28-FEB-2009  03:25:53     IMAGR     BGC Clean: using  103 cell beam + residuals >     2.00 MilliJy
   3    2   28-FEB-2009  03:25:53     IMAGR          752 Residual map points loaded
   3    4   28-FEB-2009  03:25:53     IMAGR     Field    2 min algorithm flux=    2.037 MilliJy iter=     2068
   3    3   28-FEB-2009  03:25:53     IMAGR     Field    2 Clean flux density=    1.234 MilliJy     2068 comps
   3    3   28-FEB-2009  03:25:53     IMAGR     Total Cleaned flux density     =   15.218      Jy    14923 comps
   3    2   28-FEB-2009  03:25:53     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:53     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:55     IMAGR     Field   4 min =   -4.1 MilliJy,max =    3.6 MilliJy
   3    2   28-FEB-2009  03:25:56     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.98 MilliJy
   3    2   28-FEB-2009  03:25:56     IMAGR          795 Residual map points loaded
   3    4   28-FEB-2009  03:25:56     IMAGR     Field    4 min algorithm flux=    2.012 MilliJy iter=     2171
   3    3   28-FEB-2009  03:25:56     IMAGR     Field    4 Clean flux density=    3.820 MilliJy     2171 comps
   3    3   28-FEB-2009  03:25:56     IMAGR     Total Cleaned flux density     =   15.218      Jy    15175 comps
   3    2   28-FEB-2009  03:25:57     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:25:57     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:25:59     IMAGR     Field   1 min =   -3.4 MilliJy,max =    3.0 MilliJy
   3    2   28-FEB-2009  03:26:00     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.96 MilliJy
   3    2   28-FEB-2009  03:26:00     IMAGR          281 Residual map points loaded
   3    4   28-FEB-2009  03:26:00     IMAGR     Field    1 min algorithm flux=    1.977 MilliJy iter=     1969
   3    3   28-FEB-2009  03:26:00     IMAGR     Field    1 Clean flux density=   14.966      Jy     1969 comps
   3    3   28-FEB-2009  03:26:00     IMAGR     Total Cleaned flux density     =   15.219      Jy    15290 comps
   3    2   28-FEB-2009  03:26:00     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:00     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:02     IMAGR     Field   5 min =   -3.6 MilliJy,max =    3.7 MilliJy
   3    2   28-FEB-2009  03:26:02     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.93 MilliJy
   3    2   28-FEB-2009  03:26:02     IMAGR         1139 Residual map points loaded
   3    4   28-FEB-2009  03:26:02     IMAGR     Field    5 min algorithm flux=   -1.970 MilliJy iter=     2516
   3    3   28-FEB-2009  03:26:02     IMAGR     Field    5 Clean flux density=   22.831 MilliJy     2516 comps
   3    3   28-FEB-2009  03:26:02     IMAGR     Total Cleaned flux density     =   15.217      Jy    15595 comps
   3    2   28-FEB-2009  03:26:02     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:02     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:05     IMAGR     Field   7 min =   -4.7 MilliJy,max =    3.5 MilliJy
   3    2   28-FEB-2009  03:26:06     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.91 MilliJy
   3    2   28-FEB-2009  03:26:06     IMAGR          511 Residual map points loaded
   3    4   28-FEB-2009  03:26:06     IMAGR     Field    7 min algorithm flux=   -1.933 MilliJy iter=     1953
   3    3   28-FEB-2009  03:26:06     IMAGR     Field    7 Clean flux density=  -30.188 MilliJy     1953 comps
   3    3   28-FEB-2009  03:26:06     IMAGR     Total Cleaned flux density     =   15.211      Jy    15785 comps
   3    2   28-FEB-2009  03:26:06     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:06     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:08     IMAGR     Field   3 min =   -3.2 MilliJy,max =    3.9 MilliJy
   3    2   28-FEB-2009  03:26:09     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.87 MilliJy
   3    2   28-FEB-2009  03:26:09     IMAGR         1340 Residual map points loaded
   3    4   28-FEB-2009  03:26:09     IMAGR     Field    3 min algorithm flux=    1.917 MilliJy iter=     2777
   3    3   28-FEB-2009  03:26:09     IMAGR     Field    3 Clean flux density=  113.614 MilliJy     2777 comps
   3    3   28-FEB-2009  03:26:09     IMAGR     Total Cleaned flux density     =   15.214      Jy    16125 comps
   3    2   28-FEB-2009  03:26:09     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:09     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:14     IMAGR     Field   6 min =   -3.8 MilliJy,max =    3.9 MilliJy
   3    2   28-FEB-2009  03:26:15     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.84 MilliJy
   3    2   28-FEB-2009  03:26:15     IMAGR         1560 Residual map points loaded
   3    4   28-FEB-2009  03:26:15     IMAGR     Field    6 min algorithm flux=    1.887 MilliJy iter=     3043
   3    3   28-FEB-2009  03:26:15     IMAGR     Field    6 Clean flux density=  131.387 MilliJy     3043 comps
   3    3   28-FEB-2009  03:26:15     IMAGR     Total Cleaned flux density     =   15.209      Jy    16497 comps
   3    2   28-FEB-2009  03:26:15     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:15     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:18     IMAGR     Field   2 min =   -3.4 MilliJy,max =    3.7 MilliJy
   3    2   28-FEB-2009  03:26:18     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.82 MilliJy
   3    2   28-FEB-2009  03:26:18     IMAGR          724 Residual map points loaded
   3    4   28-FEB-2009  03:26:18     IMAGR     Field    2 min algorithm flux=   -1.849 MilliJy iter=     2318
   3    3   28-FEB-2009  03:26:18     IMAGR     Field    2 Clean flux density=  490.751 MicroJy     2318 comps
   3    3   28-FEB-2009  03:26:18     IMAGR     Total Cleaned flux density     =   15.208      Jy    16747 comps
   3    2   28-FEB-2009  03:26:18     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:18     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:21     IMAGR     Field   4 min =   -3.8 MilliJy,max =    3.5 MilliJy
   3    2   28-FEB-2009  03:26:21     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.80 MilliJy
   3    2   28-FEB-2009  03:26:22     IMAGR         1017 Residual map points loaded
   3    4   28-FEB-2009  03:26:22     IMAGR     Field    4 min algorithm flux=   -1.830 MilliJy iter=     2464
   3    3   28-FEB-2009  03:26:22     IMAGR     Field    4 Clean flux density=  337.976 MicroJy     2464 comps
   3    3   28-FEB-2009  03:26:22     IMAGR     Total Cleaned flux density     =   15.205      Jy    17040 comps
   3    2   28-FEB-2009  03:26:22     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:22     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:24     IMAGR     Field   1 min =   -3.1 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:26:25     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.78 MilliJy
   3    2   28-FEB-2009  03:26:25     IMAGR          218 Residual map points loaded
   3    4   28-FEB-2009  03:26:25     IMAGR     Field    1 min algorithm flux=   -1.794 MilliJy iter=     2055
   3    3   28-FEB-2009  03:26:25     IMAGR     Field    1 Clean flux density=   14.965      Jy     2055 comps
   3    3   28-FEB-2009  03:26:25     IMAGR     Total Cleaned flux density     =   15.204      Jy    17126 comps
   3    2   28-FEB-2009  03:26:25     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:25     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:26     IMAGR     Field   5 min =   -3.3 MilliJy,max =    3.6 MilliJy
   3    2   28-FEB-2009  03:26:27     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.76 MilliJy
   3    2   28-FEB-2009  03:26:27     IMAGR         1216 Residual map points loaded
   3    4   28-FEB-2009  03:26:27     IMAGR     Field    5 min algorithm flux=    1.792 MilliJy iter=     2845
   3    3   28-FEB-2009  03:26:27     IMAGR     Field    5 Clean flux density=   28.505 MilliJy     2845 comps
   3    3   28-FEB-2009  03:26:27     IMAGR     Total Cleaned flux density     =   15.210      Jy    17455 comps
   3    2   28-FEB-2009  03:26:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:30     IMAGR     Field   7 min =   -4.5 MilliJy,max =    3.3 MilliJy
   3    2   28-FEB-2009  03:26:30     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.74 MilliJy
   3    2   28-FEB-2009  03:26:30     IMAGR          522 Residual map points loaded
   3    4   28-FEB-2009  03:26:30     IMAGR     Field    7 min algorithm flux=   -1.760 MilliJy iter=     2158
   3    3   28-FEB-2009  03:26:30     IMAGR     Field    7 Clean flux density=  -30.724 MilliJy     2158 comps
   3    3   28-FEB-2009  03:26:30     IMAGR     Total Cleaned flux density     =   15.209      Jy    17660 comps
   3    2   28-FEB-2009  03:26:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:34     IMAGR     Field   3 min =   -3.1 MilliJy,max =    3.7 MilliJy
   3    2   28-FEB-2009  03:26:35     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.71 MilliJy
   3    2   28-FEB-2009  03:26:35     IMAGR         1245 Residual map points loaded
   3    4   28-FEB-2009  03:26:35     IMAGR     Field    3 min algorithm flux=   -1.744 MilliJy iter=     3110
   3    3   28-FEB-2009  03:26:35     IMAGR     Field    3 Clean flux density=  117.913 MilliJy     3110 comps
   3    3   28-FEB-2009  03:26:35     IMAGR     Total Cleaned flux density     =   15.213      Jy    17993 comps
   3    2   28-FEB-2009  03:26:35     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:35     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:38     IMAGR     Field   6 min =   -3.7 MilliJy,max =    3.5 MilliJy
   3    2   28-FEB-2009  03:26:39     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.68 MilliJy
   3    2   28-FEB-2009  03:26:39     IMAGR         1524 Residual map points loaded
   3    4   28-FEB-2009  03:26:39     IMAGR     Field    6 min algorithm flux=   -1.716 MilliJy iter=     3423
   3    3   28-FEB-2009  03:26:39     IMAGR     Field    6 Clean flux density=  133.847 MilliJy     3423 comps
   3    3   28-FEB-2009  03:26:39     IMAGR     Total Cleaned flux density     =   15.216      Jy    18373 comps
   3    2   28-FEB-2009  03:26:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:42     IMAGR     Field   2 min =   -3.2 MilliJy,max =    3.5 MilliJy
   3    2   28-FEB-2009  03:26:43     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.66 MilliJy
   3    2   28-FEB-2009  03:26:43     IMAGR          698 Residual map points loaded
   3    4   28-FEB-2009  03:26:43     IMAGR     Field    2 min algorithm flux=    1.683 MilliJy iter=     2560
   3    3   28-FEB-2009  03:26:43     IMAGR     Field    2 Clean flux density=  812.119 MicroJy     2560 comps
   3    3   28-FEB-2009  03:26:43     IMAGR     Total Cleaned flux density     =   15.216      Jy    18615 comps
   3    2   28-FEB-2009  03:26:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:45     IMAGR     Field   4 min =   -3.5 MilliJy,max =    3.3 MilliJy
   3    2   28-FEB-2009  03:26:46     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.64 MilliJy
   3    2   28-FEB-2009  03:26:46     IMAGR         1143 Residual map points loaded
   3    4   28-FEB-2009  03:26:46     IMAGR     Field    4 min algorithm flux=   -1.668 MilliJy iter=     2794
   3    3   28-FEB-2009  03:26:46     IMAGR     Field    4 Clean flux density=    1.299 MilliJy     2794 comps
   3    3   28-FEB-2009  03:26:46     IMAGR     Total Cleaned flux density     =   15.217      Jy    18945 comps
   3    2   28-FEB-2009  03:26:46     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:46     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:51     IMAGR     Field   1 min =   -2.8 MilliJy,max =    2.3 MilliJy
   3    2   28-FEB-2009  03:26:51     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.63 MilliJy
   3    2   28-FEB-2009  03:26:51     IMAGR          248 Residual map points loaded
   3    4   28-FEB-2009  03:26:51     IMAGR     Field    1 min algorithm flux=   -1.638 MilliJy iter=     2159
   3    3   28-FEB-2009  03:26:51     IMAGR     Field    1 Clean flux density=   14.966      Jy     2159 comps
   3    3   28-FEB-2009  03:26:51     IMAGR     Total Cleaned flux density     =   15.218      Jy    19049 comps
   3    2   28-FEB-2009  03:26:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:53     IMAGR     Field   5 min =   -3.1 MilliJy,max =    3.3 MilliJy
   3    2   28-FEB-2009  03:26:53     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.60 MilliJy
   3    2   28-FEB-2009  03:26:53     IMAGR         1267 Residual map points loaded
   3    4   28-FEB-2009  03:26:53     IMAGR     Field    5 min algorithm flux=   -1.633 MilliJy iter=     3186
   3    3   28-FEB-2009  03:26:53     IMAGR     Field    5 Clean flux density=   26.002 MilliJy     3186 comps
   3    3   28-FEB-2009  03:26:53     IMAGR     Total Cleaned flux density     =   15.215      Jy    19390 comps
   3    2   28-FEB-2009  03:26:53     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:53     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:26:56     IMAGR     Field   7 min =   -4.2 MilliJy,max =    3.1 MilliJy
   3    2   28-FEB-2009  03:26:57     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.59 MilliJy
   3    2   28-FEB-2009  03:26:58     IMAGR          569 Residual map points loaded
   3    4   28-FEB-2009  03:26:58     IMAGR     Field    7 min algorithm flux=   -1.606 MilliJy iter=     2375
   3    3   28-FEB-2009  03:26:58     IMAGR     Field    7 Clean flux density=  -27.265 MilliJy     2375 comps
   3    3   28-FEB-2009  03:26:58     IMAGR     Total Cleaned flux density     =   15.219      Jy    19607 comps
   3    2   28-FEB-2009  03:26:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:26:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:00     IMAGR     Field   3 min =   -3.0 MilliJy,max =    3.5 MilliJy
   3    2   28-FEB-2009  03:27:01     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.56 MilliJy
   3    2   28-FEB-2009  03:27:01     IMAGR         1386 Residual map points loaded
   3    4   28-FEB-2009  03:27:01     IMAGR     Field    3 min algorithm flux=   -1.593 MilliJy iter=     3471
   3    3   28-FEB-2009  03:27:01     IMAGR     Field    3 Clean flux density=  113.451 MilliJy     3471 comps
   3    3   28-FEB-2009  03:27:01     IMAGR     Total Cleaned flux density     =   15.214      Jy    19968 comps
   3    2   28-FEB-2009  03:27:01     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:01     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:04     IMAGR     Field   6 min =   -3.4 MilliJy,max =    3.3 MilliJy
   3    2   28-FEB-2009  03:27:05     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.54 MilliJy
   3    2   28-FEB-2009  03:27:05     IMAGR         1637 Residual map points loaded
   3    4   28-FEB-2009  03:27:05     IMAGR     Field    6 min algorithm flux=   -1.569 MilliJy iter=     3825
   3    3   28-FEB-2009  03:27:05     IMAGR     Field    6 Clean flux density=  130.839 MilliJy     3825 comps
   3    3   28-FEB-2009  03:27:05     IMAGR     Total Cleaned flux density     =   15.211      Jy    20370 comps
   3    2   28-FEB-2009  03:27:05     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:05     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:08     IMAGR     Field   2 min =   -3.0 MilliJy,max =    3.1 MilliJy
   3    2   28-FEB-2009  03:27:09     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.52 MilliJy
   3    2   28-FEB-2009  03:27:09     IMAGR          673 Residual map points loaded
   3    4   28-FEB-2009  03:27:09     IMAGR     Field    2 min algorithm flux=   -1.539 MilliJy iter=     2804
   3    3   28-FEB-2009  03:27:09     IMAGR     Field    2 Clean flux density=    1.163 MilliJy     2804 comps
   3    3   28-FEB-2009  03:27:09     IMAGR     Total Cleaned flux density     =   15.212      Jy    20614 comps
   3    2   28-FEB-2009  03:27:09     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:09     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:11     IMAGR     Field   4 min =   -3.3 MilliJy,max =    3.2 MilliJy
   3    2   28-FEB-2009  03:27:12     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.50 MilliJy
   3    2   28-FEB-2009  03:27:12     IMAGR         1256 Residual map points loaded
   3    4   28-FEB-2009  03:27:12     IMAGR     Field    4 min algorithm flux=   -1.527 MilliJy iter=     3149
   3    3   28-FEB-2009  03:27:12     IMAGR     Field    4 Clean flux density=   -5.778 MilliJy     3149 comps
   3    3   28-FEB-2009  03:27:12     IMAGR     Total Cleaned flux density     =   15.205      Jy    20969 comps
   3    2   28-FEB-2009  03:27:12     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:12     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:18     IMAGR     Field   1 min =   -2.7 MilliJy,max =    2.2 MilliJy
   3    2   28-FEB-2009  03:27:19     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.49 MilliJy
   3    2   28-FEB-2009  03:27:19     IMAGR          189 Residual map points loaded
   3    4   28-FEB-2009  03:27:19     IMAGR     Field    1 min algorithm flux=    1.497 MilliJy iter=     2252
   3    3   28-FEB-2009  03:27:19     IMAGR     Field    1 Clean flux density=   14.967      Jy     2252 comps
   3    3   28-FEB-2009  03:27:19     IMAGR     Total Cleaned flux density     =   15.206      Jy    21062 comps
   3    2   28-FEB-2009  03:27:19     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:19     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:20     IMAGR     Field   5 min =   -3.0 MilliJy,max =    3.2 MilliJy
   3    2   28-FEB-2009  03:27:21     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.47 MilliJy
   3    2   28-FEB-2009  03:27:21     IMAGR         1202 Residual map points loaded
   3    4   28-FEB-2009  03:27:21     IMAGR     Field    5 min algorithm flux=    1.494 MilliJy iter=     3542
   3    3   28-FEB-2009  03:27:21     IMAGR     Field    5 Clean flux density=   25.104 MilliJy     3542 comps
   3    3   28-FEB-2009  03:27:21     IMAGR     Total Cleaned flux density     =   15.205      Jy    21418 comps
   3    2   28-FEB-2009  03:27:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:24     IMAGR     Field   7 min =   -4.0 MilliJy,max =    3.0 MilliJy
   3    2   28-FEB-2009  03:27:25     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.45 MilliJy
   3    2   28-FEB-2009  03:27:25     IMAGR          609 Residual map points loaded
   3    4   28-FEB-2009  03:27:25     IMAGR     Field    7 min algorithm flux=   -1.470 MilliJy iter=     2606
   3    3   28-FEB-2009  03:27:25     IMAGR     Field    7 Clean flux density=  -24.156 MilliJy     2606 comps
   3    3   28-FEB-2009  03:27:25     IMAGR     Total Cleaned flux density     =   15.208      Jy    21649 comps
   3    2   28-FEB-2009  03:27:25     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:25     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:27     IMAGR     Field   3 min =   -3.0 MilliJy,max =    3.3 MilliJy
   3    2   28-FEB-2009  03:27:28     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.43 MilliJy
   3    2   28-FEB-2009  03:27:28     IMAGR         1390 Residual map points loaded
   3    4   28-FEB-2009  03:27:28     IMAGR     Field    3 min algorithm flux=   -1.458 MilliJy iter=     3855
   3    3   28-FEB-2009  03:27:28     IMAGR     Field    3 Clean flux density=  115.509 MilliJy     3855 comps
   3    3   28-FEB-2009  03:27:28     IMAGR     Total Cleaned flux density     =   15.210      Jy    22033 comps
   3    2   28-FEB-2009  03:27:28     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:28     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:31     IMAGR     Field   6 min =   -3.2 MilliJy,max =    3.1 MilliJy
   3    2   28-FEB-2009  03:27:32     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.41 MilliJy
   3    2   28-FEB-2009  03:27:32     IMAGR         1463 Residual map points loaded
   3    4   28-FEB-2009  03:27:32     IMAGR     Field    6 min algorithm flux=   -1.432 MilliJy iter=     4204
   3    3   28-FEB-2009  03:27:32     IMAGR     Field    6 Clean flux density=  133.011 MilliJy     4204 comps
   3    3   28-FEB-2009  03:27:32     IMAGR     Total Cleaned flux density     =   15.212      Jy    22412 comps
   3    2   28-FEB-2009  03:27:32     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:32     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:35     IMAGR     Field   2 min =   -2.9 MilliJy,max =    3.0 MilliJy
   3    2   28-FEB-2009  03:27:35     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.39 MilliJy
   3    2   28-FEB-2009  03:27:36     IMAGR          744 Residual map points loaded
   3    4   28-FEB-2009  03:27:36     IMAGR     Field    2 min algorithm flux=    1.410 MilliJy iter=     3077
   3    3   28-FEB-2009  03:27:36     IMAGR     Field    2 Clean flux density=  669.693 MicroJy     3077 comps
   3    3   28-FEB-2009  03:27:36     IMAGR     Total Cleaned flux density     =   15.212      Jy    22685 comps
   3    2   28-FEB-2009  03:27:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:38     IMAGR     Field   4 min =   -2.9 MilliJy,max =    3.0 MilliJy
   3    2   28-FEB-2009  03:27:39     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.37 MilliJy
   3    2   28-FEB-2009  03:27:39     IMAGR         1200 Residual map points loaded
   3    4   28-FEB-2009  03:27:39     IMAGR     Field    4 min algorithm flux=    1.396 MilliJy iter=     3506
   3    3   28-FEB-2009  03:27:39     IMAGR     Field    4 Clean flux density=  -10.051 MilliJy     3506 comps
   3    3   28-FEB-2009  03:27:39     IMAGR     Total Cleaned flux density     =   15.208      Jy    23042 comps
   3    2   28-FEB-2009  03:27:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:43     IMAGR     Field   1 min =   -2.4 MilliJy,max =    2.0 MilliJy
   3    2   28-FEB-2009  03:27:43     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.37 MilliJy
   3    2   28-FEB-2009  03:27:43     IMAGR          246 Residual map points loaded
   3    4   28-FEB-2009  03:27:43     IMAGR     Field    1 min algorithm flux=    1.373 MilliJy iter=     2360
   3    3   28-FEB-2009  03:27:43     IMAGR     Field    1 Clean flux density=   14.967      Jy     2360 comps
   3    3   28-FEB-2009  03:27:43     IMAGR     Total Cleaned flux density     =   15.207      Jy    23150 comps
   3    2   28-FEB-2009  03:27:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:45     IMAGR     Field   5 min =   -2.8 MilliJy,max =    2.9 MilliJy
   3    2   28-FEB-2009  03:27:46     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.35 MilliJy
   3    2   28-FEB-2009  03:27:46     IMAGR         1345 Residual map points loaded
   3    4   28-FEB-2009  03:27:46     IMAGR     Field    5 min algorithm flux=    1.370 MilliJy iter=     3922
   3    3   28-FEB-2009  03:27:46     IMAGR     Field    5 Clean flux density=   25.547 MilliJy     3922 comps
   3    3   28-FEB-2009  03:27:46     IMAGR     Total Cleaned flux density     =   15.207      Jy    23530 comps
   3    2   28-FEB-2009  03:27:46     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:46     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:49     IMAGR     Field   7 min =   -3.8 MilliJy,max =    2.8 MilliJy
   3    2   28-FEB-2009  03:27:50     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.33 MilliJy
   3    2   28-FEB-2009  03:27:50     IMAGR          631 Residual map points loaded
   3    4   28-FEB-2009  03:27:50     IMAGR     Field    7 min algorithm flux=    1.348 MilliJy iter=     2845
   3    3   28-FEB-2009  03:27:50     IMAGR     Field    7 Clean flux density=  -22.627 MilliJy     2845 comps
   3    3   28-FEB-2009  03:27:50     IMAGR     Total Cleaned flux density     =   15.209      Jy    23769 comps
   3    2   28-FEB-2009  03:27:50     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:50     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:53     IMAGR     Field   3 min =   -2.9 MilliJy,max =    3.2 MilliJy
   3    2   28-FEB-2009  03:27:53     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.31 MilliJy
   3    2   28-FEB-2009  03:27:53     IMAGR         1516 Residual map points loaded
   3    4   28-FEB-2009  03:27:53     IMAGR     Field    3 min algorithm flux=   -1.337 MilliJy iter=     4264
   3    3   28-FEB-2009  03:27:53     IMAGR     Field    3 Clean flux density=  114.173 MilliJy     4264 comps
   3    3   28-FEB-2009  03:27:53     IMAGR     Total Cleaned flux density     =   15.207      Jy    24178 comps
   3    2   28-FEB-2009  03:27:53     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:53     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:27:57     IMAGR     Field   6 min =   -3.0 MilliJy,max =    3.0 MilliJy
   3    2   28-FEB-2009  03:27:57     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.29 MilliJy
   3    2   28-FEB-2009  03:27:58     IMAGR         1601 Residual map points loaded
   3    4   28-FEB-2009  03:27:58     IMAGR     Field    6 min algorithm flux=    1.317 MilliJy iter=     4629
   3    3   28-FEB-2009  03:27:58     IMAGR     Field    6 Clean flux density=  133.359 MilliJy     4629 comps
   3    3   28-FEB-2009  03:27:58     IMAGR     Total Cleaned flux density     =   15.208      Jy    24603 comps
   3    2   28-FEB-2009  03:27:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:27:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:01     IMAGR     Field   2 min =   -2.7 MilliJy,max =    2.8 MilliJy
   3    2   28-FEB-2009  03:28:02     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.28 MilliJy
   3    2   28-FEB-2009  03:28:02     IMAGR          742 Residual map points loaded
   3    4   28-FEB-2009  03:28:02     IMAGR     Field    2 min algorithm flux=    1.294 MilliJy iter=     3344
   3    3   28-FEB-2009  03:28:02     IMAGR     Field    2 Clean flux density=  227.416 MicroJy     3344 comps
   3    3   28-FEB-2009  03:28:02     IMAGR     Total Cleaned flux density     =   15.207      Jy    24870 comps
   3    2   28-FEB-2009  03:28:02     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:02     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:05     IMAGR     Field   4 min =   -2.9 MilliJy,max =    2.9 MilliJy
   3    2   28-FEB-2009  03:28:06     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.26 MilliJy
   3    2   28-FEB-2009  03:28:06     IMAGR         1252 Residual map points loaded
   3    4   28-FEB-2009  03:28:06     IMAGR     Field    4 min algorithm flux=   -1.283 MilliJy iter=     3876
   3    3   28-FEB-2009  03:28:06     IMAGR     Field    4 Clean flux density=   -9.746 MilliJy     3876 comps
   3    3   28-FEB-2009  03:28:06     IMAGR     Total Cleaned flux density     =   15.208      Jy    25240 comps
   3    2   28-FEB-2009  03:28:06     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:06     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:09     IMAGR     Field   1 min =   -2.1 MilliJy,max =    1.9 MilliJy
   3    2   28-FEB-2009  03:28:10     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.26 MilliJy
   3    2   28-FEB-2009  03:28:10     IMAGR          195 Residual map points loaded
   3    4   28-FEB-2009  03:28:10     IMAGR     Field    1 min algorithm flux=   -1.262 MilliJy iter=     2463
   3    3   28-FEB-2009  03:28:10     IMAGR     Field    1 Clean flux density=   14.966      Jy     2463 comps
   3    3   28-FEB-2009  03:28:10     IMAGR     Total Cleaned flux density     =   15.207      Jy    25343 comps
   3    2   28-FEB-2009  03:28:11     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:11     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:12     IMAGR     Field   5 min =   -2.8 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:28:13     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.24 MilliJy
   3    2   28-FEB-2009  03:28:13     IMAGR         1480 Residual map points loaded
   3    4   28-FEB-2009  03:28:13     IMAGR     Field    5 min algorithm flux=    1.260 MilliJy iter=     4344
   3    3   28-FEB-2009  03:28:13     IMAGR     Field    5 Clean flux density=   25.344 MilliJy     4344 comps
   3    3   28-FEB-2009  03:28:13     IMAGR     Total Cleaned flux density     =   15.207      Jy    25765 comps
   3    2   28-FEB-2009  03:28:13     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:13     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:17     IMAGR     Field   7 min =   -3.5 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:28:18     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.23 MilliJy
   3    2   28-FEB-2009  03:28:18     IMAGR          688 Residual map points loaded
   3    4   28-FEB-2009  03:28:18     IMAGR     Field    7 min algorithm flux=    1.242 MilliJy iter=     3124
   3    3   28-FEB-2009  03:28:18     IMAGR     Field    7 Clean flux density=  -22.494 MilliJy     3124 comps
   3    3   28-FEB-2009  03:28:18     IMAGR     Total Cleaned flux density     =   15.207      Jy    26044 comps
   3    2   28-FEB-2009  03:28:18     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:18     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:22     IMAGR     Field   3 min =   -2.9 MilliJy,max =    3.0 MilliJy
   3    2   28-FEB-2009  03:28:22     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.21 MilliJy
   3    2   28-FEB-2009  03:28:23     IMAGR         1492 Residual map points loaded
   3    4   28-FEB-2009  03:28:23     IMAGR     Field    3 min algorithm flux=    1.229 MilliJy iter=     4662
   3    3   28-FEB-2009  03:28:23     IMAGR     Field    3 Clean flux density=  117.491 MilliJy     4662 comps
   3    3   28-FEB-2009  03:28:23     IMAGR     Total Cleaned flux density     =   15.211      Jy    26442 comps
   3    2   28-FEB-2009  03:28:23     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:23     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:26     IMAGR     Field   6 min =   -2.8 MilliJy,max =    2.9 MilliJy
   3    2   28-FEB-2009  03:28:27     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.19 MilliJy
   3    2   28-FEB-2009  03:28:27     IMAGR         1661 Residual map points loaded
   3    4   28-FEB-2009  03:28:27     IMAGR     Field    6 min algorithm flux=    1.212 MilliJy iter=     5064
   3    3   28-FEB-2009  03:28:27     IMAGR     Field    6 Clean flux density=  133.948 MilliJy     5064 comps
   3    3   28-FEB-2009  03:28:27     IMAGR     Total Cleaned flux density     =   15.211      Jy    26877 comps
   3    2   28-FEB-2009  03:28:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:30     IMAGR     Field   2 min =   -2.7 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:28:31     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.18 MilliJy
   3    2   28-FEB-2009  03:28:31     IMAGR          750 Residual map points loaded
   3    4   28-FEB-2009  03:28:31     IMAGR     Field    2 min algorithm flux=   -1.193 MilliJy iter=     3629
   3    3   28-FEB-2009  03:28:31     IMAGR     Field    2 Clean flux density=   -2.144 MilliJy     3629 comps
   3    3   28-FEB-2009  03:28:31     IMAGR     Total Cleaned flux density     =   15.209      Jy    27162 comps
   3    2   28-FEB-2009  03:28:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:33     IMAGR     Field   4 min =   -2.7 MilliJy,max =    2.8 MilliJy
   3    2   28-FEB-2009  03:28:34     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.16 MilliJy
   3    2   28-FEB-2009  03:28:34     IMAGR         1337 Residual map points loaded
   3    4   28-FEB-2009  03:28:34     IMAGR     Field    4 min algorithm flux=   -1.183 MilliJy iter=     4282
   3    3   28-FEB-2009  03:28:34     IMAGR     Field    4 Clean flux density=   -8.712 MilliJy     4282 comps
   3    3   28-FEB-2009  03:28:34     IMAGR     Total Cleaned flux density     =   15.210      Jy    27568 comps
   3    2   28-FEB-2009  03:28:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:37     IMAGR     Field   1 min =   -2.0 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:28:38     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.16 MilliJy
   3    2   28-FEB-2009  03:28:38     IMAGR          220 Residual map points loaded
   3    4   28-FEB-2009  03:28:38     IMAGR     Field    1 min algorithm flux=    1.163 MilliJy iter=     2566
   3    3   28-FEB-2009  03:28:38     IMAGR     Field    1 Clean flux density=   14.967      Jy     2566 comps
   3    3   28-FEB-2009  03:28:38     IMAGR     Total Cleaned flux density     =   15.210      Jy    27671 comps
   3    2   28-FEB-2009  03:28:38     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:38     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:40     IMAGR     Field   5 min =   -2.6 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:28:40     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.14 MilliJy
   3    2   28-FEB-2009  03:28:40     IMAGR         1413 Residual map points loaded
   3    4   28-FEB-2009  03:28:40     IMAGR     Field    5 min algorithm flux=    1.160 MilliJy iter=     4761
   3    3   28-FEB-2009  03:28:40     IMAGR     Field    5 Clean flux density=   21.446 MilliJy     4761 comps
   3    3   28-FEB-2009  03:28:40     IMAGR     Total Cleaned flux density     =   15.207      Jy    28088 comps
   3    2   28-FEB-2009  03:28:40     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:40     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:44     IMAGR     Field   7 min =   -3.3 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:28:44     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.13 MilliJy
   3    2   28-FEB-2009  03:28:44     IMAGR          721 Residual map points loaded
   3    4   28-FEB-2009  03:28:44     IMAGR     Field    7 min algorithm flux=    1.142 MilliJy iter=     3407
   3    3   28-FEB-2009  03:28:44     IMAGR     Field    7 Clean flux density=  -18.661 MilliJy     3407 comps
   3    3   28-FEB-2009  03:28:44     IMAGR     Total Cleaned flux density     =   15.210      Jy    28371 comps
   3    2   28-FEB-2009  03:28:44     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:44     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:49     IMAGR     Field   3 min =   -2.8 MilliJy,max =    2.8 MilliJy
   3    2   28-FEB-2009  03:28:51     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.11 MilliJy
   3    2   28-FEB-2009  03:28:51     IMAGR         1527 Residual map points loaded
   3    4   28-FEB-2009  03:28:51     IMAGR     Field    3 min algorithm flux=   -1.132 MilliJy iter=     5077
   3    3   28-FEB-2009  03:28:51     IMAGR     Field    3 Clean flux density=  117.515 MilliJy     5077 comps
   3    3   28-FEB-2009  03:28:51     IMAGR     Total Cleaned flux density     =   15.210      Jy    28786 comps
   3    2   28-FEB-2009  03:28:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:54     IMAGR     Field   6 min =   -2.7 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:28:55     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.10 MilliJy
   3    2   28-FEB-2009  03:28:55     IMAGR         1757 Residual map points loaded
   3    4   28-FEB-2009  03:28:55     IMAGR     Field    6 min algorithm flux=    1.116 MilliJy iter=     5525
   3    3   28-FEB-2009  03:28:55     IMAGR     Field    6 Clean flux density=  136.766 MilliJy     5525 comps
   3    3   28-FEB-2009  03:28:55     IMAGR     Total Cleaned flux density     =   15.213      Jy    29247 comps
   3    2   28-FEB-2009  03:28:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:28:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:28:59     IMAGR     Field   2 min =   -2.5 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:28:59     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.09 MilliJy
   3    2   28-FEB-2009  03:29:00     IMAGR          776 Residual map points loaded
   3    4   28-FEB-2009  03:29:00     IMAGR     Field    2 min algorithm flux=    1.100 MilliJy iter=     3920
   3    3   28-FEB-2009  03:29:00     IMAGR     Field    2 Clean flux density=   -3.181 MilliJy     3920 comps
   3    3   28-FEB-2009  03:29:00     IMAGR     Total Cleaned flux density     =   15.212      Jy    29538 comps
   3    2   28-FEB-2009  03:29:00     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:00     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:03     IMAGR     Field   4 min =   -2.6 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:29:04     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.07 MilliJy
   3    2   28-FEB-2009  03:29:04     IMAGR         1489 Residual map points loaded
   3    4   28-FEB-2009  03:29:04     IMAGR     Field    4 min algorithm flux=    1.092 MilliJy iter=     4726
   3    3   28-FEB-2009  03:29:04     IMAGR     Field    4 Clean flux density=  -12.951 MilliJy     4726 comps
   3    3   28-FEB-2009  03:29:04     IMAGR     Total Cleaned flux density     =   15.208      Jy    29982 comps
   3    2   28-FEB-2009  03:29:04     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:04     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:08     IMAGR     Field   1 min =   -1.8 MilliJy,max =    1.6 MilliJy
   3    2   28-FEB-2009  03:29:09     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.07 MilliJy
   3    2   28-FEB-2009  03:29:09     IMAGR          197 Residual map points loaded
   3    4   28-FEB-2009  03:29:09     IMAGR     Field    1 min algorithm flux=   -1.074 MilliJy iter=     2665
   3    3   28-FEB-2009  03:29:09     IMAGR     Field    1 Clean flux density=   14.967      Jy     2665 comps
   3    3   28-FEB-2009  03:29:09     IMAGR     Total Cleaned flux density     =   15.209      Jy    30081 comps
   3    2   28-FEB-2009  03:29:09     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:09     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:12     IMAGR     Field   5 min =   -2.5 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:29:13     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.05 MilliJy
   3    2   28-FEB-2009  03:29:13     IMAGR         1460 Residual map points loaded
   3    4   28-FEB-2009  03:29:13     IMAGR     Field    5 min algorithm flux=   -1.071 MilliJy iter=     5183
   3    3   28-FEB-2009  03:29:13     IMAGR     Field    5 Clean flux density=   22.185 MilliJy     5183 comps
   3    3   28-FEB-2009  03:29:13     IMAGR     Total Cleaned flux density     =   15.209      Jy    30503 comps
   3    2   28-FEB-2009  03:29:13     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:13     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:19     IMAGR     Field   7 min =   -3.2 MilliJy,max =    2.3 MilliJy
   3    2   28-FEB-2009  03:29:21     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.05 MilliJy
   3    2   28-FEB-2009  03:29:21     IMAGR          709 Residual map points loaded
   3    4   28-FEB-2009  03:29:21     IMAGR     Field    7 min algorithm flux=   -1.055 MilliJy iter=     3677
   3    3   28-FEB-2009  03:29:21     IMAGR     Field    7 Clean flux density=  -19.725 MilliJy     3677 comps
   3    3   28-FEB-2009  03:29:21     IMAGR     Total Cleaned flux density     =   15.208      Jy    30773 comps
   3    2   28-FEB-2009  03:29:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:23     IMAGR     Field   3 min =   -2.8 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:29:24     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.03 MilliJy
   3    2   28-FEB-2009  03:29:24     IMAGR         1704 Residual map points loaded
   3    4   28-FEB-2009  03:29:24     IMAGR     Field    3 min algorithm flux=   -1.049 MilliJy iter=     5545
   3    3   28-FEB-2009  03:29:24     IMAGR     Field    3 Clean flux density=  117.984 MilliJy     5545 comps
   3    3   28-FEB-2009  03:29:24     IMAGR     Total Cleaned flux density     =   15.209      Jy    31241 comps
   3    2   28-FEB-2009  03:29:25     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:25     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:29     IMAGR     Field   6 min =   -2.6 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:29:29     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.02 MilliJy
   3    2   28-FEB-2009  03:29:30     IMAGR         1790 Residual map points loaded
   3    4   28-FEB-2009  03:29:30     IMAGR     Field    6 min algorithm flux=   -1.033 MilliJy iter=     6005
   3    3   28-FEB-2009  03:29:30     IMAGR     Field    6 Clean flux density=  139.479 MilliJy     6005 comps
   3    3   28-FEB-2009  03:29:30     IMAGR     Total Cleaned flux density     =   15.211      Jy    31721 comps
   3    2   28-FEB-2009  03:29:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:33     IMAGR     Field   2 min =   -2.4 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:29:34     IMAGR     BGC Clean: using  103 cell beam + residuals >     1.01 MilliJy
   3    2   28-FEB-2009  03:29:34     IMAGR          760 Residual map points loaded
   3    4   28-FEB-2009  03:29:34     IMAGR     Field    2 min algorithm flux=   -1.018 MilliJy iter=     4206
   3    3   28-FEB-2009  03:29:34     IMAGR     Field    2 Clean flux density=   -6.009 MilliJy     4206 comps
   3    3   28-FEB-2009  03:29:34     IMAGR     Total Cleaned flux density     =   15.209      Jy    32007 comps
   3    2   28-FEB-2009  03:29:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:39     IMAGR     Field   4 min =   -2.5 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:29:39     IMAGR     BGC Clean: using  103 cell beam + residuals >   995.16 MicroJy
   3    2   28-FEB-2009  03:29:39     IMAGR         1609 Residual map points loaded
   3    4   28-FEB-2009  03:29:39     IMAGR     Field    4 min algorithm flux=   -1.011 MilliJy iter=     5190
   3    3   28-FEB-2009  03:29:39     IMAGR     Field    4 Clean flux density=  -12.499 MilliJy     5190 comps
   3    3   28-FEB-2009  03:29:39     IMAGR     Total Cleaned flux density     =   15.209      Jy    32471 comps
   3    2   28-FEB-2009  03:29:40     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:40     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:44     IMAGR     Field   1 min =   -1.7 MilliJy,max =    1.5 MilliJy
   3    2   28-FEB-2009  03:29:45     IMAGR     BGC Clean: using  103 cell beam + residuals >   991.27 MicroJy
   3    2   28-FEB-2009  03:29:45     IMAGR          218 Residual map points loaded
   3    4   28-FEB-2009  03:29:45     IMAGR     Field    1 min algorithm flux=  995.522 MicroJy iter=     2774
   3    3   28-FEB-2009  03:29:45     IMAGR     Field    1 Clean flux density=   14.970      Jy     2774 comps
   3    3   28-FEB-2009  03:29:45     IMAGR     Total Cleaned flux density     =   15.211      Jy    32580 comps
   3    2   28-FEB-2009  03:29:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:46     IMAGR     Field   5 min =   -2.4 MilliJy,max =    2.3 MilliJy
   3    2   28-FEB-2009  03:29:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   978.90 MicroJy
   3    2   28-FEB-2009  03:29:47     IMAGR         1726 Residual map points loaded
   3    4   28-FEB-2009  03:29:47     IMAGR     Field    5 min algorithm flux=  994.951 MicroJy iter=     5658
   3    3   28-FEB-2009  03:29:47     IMAGR     Field    5 Clean flux density=   19.769 MilliJy     5658 comps
   3    3   28-FEB-2009  03:29:47     IMAGR     Total Cleaned flux density     =   15.209      Jy    33055 comps
   3    2   28-FEB-2009  03:29:47     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:47     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:51     IMAGR     Field   7 min =   -3.1 MilliJy,max =    2.2 MilliJy
   3    2   28-FEB-2009  03:29:52     IMAGR     BGC Clean: using  103 cell beam + residuals >   970.73 MicroJy
   3    2   28-FEB-2009  03:29:52     IMAGR          688 Residual map points loaded
   3    4   28-FEB-2009  03:29:52     IMAGR     Field    7 min algorithm flux=  979.818 MicroJy iter=     3953
   3    3   28-FEB-2009  03:29:52     IMAGR     Field    7 Clean flux density=  -17.083 MilliJy     3953 comps
   3    3   28-FEB-2009  03:29:52     IMAGR     Total Cleaned flux density     =   15.211      Jy    33331 comps
   3    2   28-FEB-2009  03:29:52     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:52     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:29:54     IMAGR     Field   3 min =   -2.7 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:29:56     IMAGR     BGC Clean: using  103 cell beam + residuals >   957.75 MicroJy
   3    2   28-FEB-2009  03:29:56     IMAGR         1663 Residual map points loaded
   3    4   28-FEB-2009  03:29:56     IMAGR     Field    3 min algorithm flux= -972.208 MicroJy iter=     5999
   3    3   28-FEB-2009  03:29:56     IMAGR     Field    3 Clean flux density=  118.562 MilliJy     5999 comps
   3    3   28-FEB-2009  03:29:56     IMAGR     Total Cleaned flux density     =   15.212      Jy    33785 comps
   3    2   28-FEB-2009  03:29:56     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:29:56     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:02     IMAGR     Field   6 min =   -2.5 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:30:02     IMAGR     BGC Clean: using  103 cell beam + residuals >   944.40 MicroJy
   3    2   28-FEB-2009  03:30:02     IMAGR         1815 Residual map points loaded
   3    4   28-FEB-2009  03:30:02     IMAGR     Field    6 min algorithm flux=  959.446 MicroJy iter=     6485
   3    3   28-FEB-2009  03:30:02     IMAGR     Field    6 Clean flux density=  137.655 MilliJy     6485 comps
   3    3   28-FEB-2009  03:30:02     IMAGR     Total Cleaned flux density     =   15.210      Jy    34265 comps
   3    2   28-FEB-2009  03:30:02     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:02     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:07     IMAGR     Field   2 min =   -2.3 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:30:08     IMAGR     BGC Clean: using  103 cell beam + residuals >   936.44 MicroJy
   3    2   28-FEB-2009  03:30:08     IMAGR          873 Residual map points loaded
   3    4   28-FEB-2009  03:30:08     IMAGR     Field    2 min algorithm flux=  946.505 MicroJy iter=     4533
   3    3   28-FEB-2009  03:30:08     IMAGR     Field    2 Clean flux density=   -5.332 MilliJy     4533 comps
   3    3   28-FEB-2009  03:30:08     IMAGR     Total Cleaned flux density     =   15.211      Jy    34592 comps
   3    2   28-FEB-2009  03:30:08     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:08     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:12     IMAGR     Field   4 min =   -2.4 MilliJy,max =    2.4 MilliJy
   3    2   28-FEB-2009  03:30:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   924.79 MicroJy
   3    2   28-FEB-2009  03:30:12     IMAGR         1537 Residual map points loaded
   3    4   28-FEB-2009  03:30:12     IMAGR     Field    4 min algorithm flux= -938.059 MicroJy iter=     5647
   3    3   28-FEB-2009  03:30:12     IMAGR     Field    4 Clean flux density=  -16.046 MilliJy     5647 comps
   3    3   28-FEB-2009  03:30:12     IMAGR     Total Cleaned flux density     =   15.207      Jy    35049 comps
   3    2   28-FEB-2009  03:30:12     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:12     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:16     IMAGR     Field   1 min =   -1.6 MilliJy,max =    1.3 MilliJy
   3    2   28-FEB-2009  03:30:17     IMAGR     BGC Clean: using  103 cell beam + residuals >   921.11 MicroJy
   3    2   28-FEB-2009  03:30:17     IMAGR          219 Residual map points loaded
   3    4   28-FEB-2009  03:30:17     IMAGR     Field    1 min algorithm flux=  924.493 MicroJy iter=     2878
   3    3   28-FEB-2009  03:30:17     IMAGR     Field    1 Clean flux density=   14.969      Jy     2878 comps
   3    3   28-FEB-2009  03:30:17     IMAGR     Total Cleaned flux density     =   15.207      Jy    35153 comps
   3    2   28-FEB-2009  03:30:17     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:17     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:18     IMAGR     Field   5 min =   -2.4 MilliJy,max =    2.2 MilliJy
   3    2   28-FEB-2009  03:30:19     IMAGR     BGC Clean: using  103 cell beam + residuals >   909.41 MicroJy
   3    2   28-FEB-2009  03:30:19     IMAGR         1766 Residual map points loaded
   3    4   28-FEB-2009  03:30:19     IMAGR     Field    5 min algorithm flux= -924.060 MicroJy iter=     6147
   3    3   28-FEB-2009  03:30:19     IMAGR     Field    5 Clean flux density=   16.833 MilliJy     6147 comps
   3    3   28-FEB-2009  03:30:19     IMAGR     Total Cleaned flux density     =   15.204      Jy    35642 comps
   3    2   28-FEB-2009  03:30:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:26     IMAGR     Field   7 min =   -3.0 MilliJy,max =    2.0 MilliJy
   3    2   28-FEB-2009  03:30:27     IMAGR     BGC Clean: using  103 cell beam + residuals >   901.98 MicroJy
   3    2   28-FEB-2009  03:30:27     IMAGR          771 Residual map points loaded
   3    4   28-FEB-2009  03:30:27     IMAGR     Field    7 min algorithm flux= -910.828 MicroJy iter=     4259
   3    3   28-FEB-2009  03:30:27     IMAGR     Field    7 Clean flux density=  -15.578 MilliJy     4259 comps
   3    3   28-FEB-2009  03:30:27     IMAGR     Total Cleaned flux density     =   15.206      Jy    35948 comps
   3    2   28-FEB-2009  03:30:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:29     IMAGR     Field   3 min =   -2.6 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:30:31     IMAGR     BGC Clean: using  103 cell beam + residuals >   890.70 MicroJy
   3    2   28-FEB-2009  03:30:31     IMAGR         1747 Residual map points loaded
   3    4   28-FEB-2009  03:30:31     IMAGR     Field    3 min algorithm flux=  903.994 MicroJy iter=     6473
   3    3   28-FEB-2009  03:30:31     IMAGR     Field    3 Clean flux density=  118.776 MilliJy     6473 comps
   3    3   28-FEB-2009  03:30:31     IMAGR     Total Cleaned flux density     =   15.206      Jy    36422 comps
   3    2   28-FEB-2009  03:30:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:36     IMAGR     Field   6 min =   -2.5 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:30:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   878.77 MicroJy
   3    2   28-FEB-2009  03:30:37     IMAGR         1936 Residual map points loaded
   3    4   28-FEB-2009  03:30:37     IMAGR     Field    6 min algorithm flux=  892.520 MicroJy iter=     6995
   3    3   28-FEB-2009  03:30:37     IMAGR     Field    6 Clean flux density=  138.231 MilliJy     6995 comps
   3    3   28-FEB-2009  03:30:37     IMAGR     Total Cleaned flux density     =   15.206      Jy    36932 comps
   3    2   28-FEB-2009  03:30:37     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:37     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:42     IMAGR     Field   2 min =   -2.3 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:30:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   871.49 MicroJy
   3    2   28-FEB-2009  03:30:42     IMAGR          888 Residual map points loaded
   3    4   28-FEB-2009  03:30:42     IMAGR     Field    2 min algorithm flux=  880.294 MicroJy iter=     4864
   3    3   28-FEB-2009  03:30:42     IMAGR     Field    2 Clean flux density=   -7.291 MilliJy     4864 comps
   3    3   28-FEB-2009  03:30:42     IMAGR     Total Cleaned flux density     =   15.204      Jy    37263 comps
   3    2   28-FEB-2009  03:30:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:46     IMAGR     Field   4 min =   -2.4 MilliJy,max =    2.4 MilliJy
   3    2   28-FEB-2009  03:30:48     IMAGR     BGC Clean: using  103 cell beam + residuals >   861.55 MicroJy
   3    2   28-FEB-2009  03:30:48     IMAGR         1697 Residual map points loaded
   3    4   28-FEB-2009  03:30:48     IMAGR     Field    4 min algorithm flux=  874.044 MicroJy iter=     6136
   3    3   28-FEB-2009  03:30:48     IMAGR     Field    4 Clean flux density=  -16.837 MilliJy     6136 comps
   3    3   28-FEB-2009  03:30:48     IMAGR     Total Cleaned flux density     =   15.204      Jy    37752 comps
   3    2   28-FEB-2009  03:30:48     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:48     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:53     IMAGR     Field   1 min =   -1.4 MilliJy,max =    1.3 MilliJy
   3    2   28-FEB-2009  03:30:55     IMAGR     BGC Clean: using  103 cell beam + residuals >   858.30 MicroJy
   3    2   28-FEB-2009  03:30:55     IMAGR          212 Residual map points loaded
   3    4   28-FEB-2009  03:30:55     IMAGR     Field    1 min algorithm flux= -861.416 MicroJy iter=     2979
   3    3   28-FEB-2009  03:30:55     IMAGR     Field    1 Clean flux density=   14.970      Jy     2979 comps
   3    3   28-FEB-2009  03:30:55     IMAGR     Total Cleaned flux density     =   15.204      Jy    37853 comps
   3    2   28-FEB-2009  03:30:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:30:56     IMAGR     Field   5 min =   -2.4 MilliJy,max =    2.2 MilliJy
   3    2   28-FEB-2009  03:30:57     IMAGR     BGC Clean: using  103 cell beam + residuals >   847.72 MicroJy
   3    2   28-FEB-2009  03:30:57     IMAGR         1752 Residual map points loaded
   3    4   28-FEB-2009  03:30:57     IMAGR     Field    5 min algorithm flux=  860.494 MicroJy iter=     6663
   3    3   28-FEB-2009  03:30:57     IMAGR     Field    5 Clean flux density=   16.134 MilliJy     6663 comps
   3    3   28-FEB-2009  03:30:57     IMAGR     Total Cleaned flux density     =   15.203      Jy    38369 comps
   3    2   28-FEB-2009  03:30:57     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:30:57     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:01     IMAGR     Field   7 min =   -2.9 MilliJy,max =    1.9 MilliJy
   3    2   28-FEB-2009  03:31:02     IMAGR     BGC Clean: using  103 cell beam + residuals >   841.25 MicroJy
   3    2   28-FEB-2009  03:31:02     IMAGR          811 Residual map points loaded
   3    4   28-FEB-2009  03:31:02     IMAGR     Field    7 min algorithm flux= -849.158 MicroJy iter=     4564
   3    3   28-FEB-2009  03:31:02     IMAGR     Field    7 Clean flux density=  -12.862 MilliJy     4564 comps
   3    3   28-FEB-2009  03:31:02     IMAGR     Total Cleaned flux density     =   15.206      Jy    38674 comps
   3    2   28-FEB-2009  03:31:02     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:02     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:05     IMAGR     Field   3 min =   -2.6 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:31:05     IMAGR     BGC Clean: using  103 cell beam + residuals >   831.30 MicroJy
   3    2   28-FEB-2009  03:31:05     IMAGR         1946 Residual map points loaded
   3    4   28-FEB-2009  03:31:05     IMAGR     Field    3 min algorithm flux=  844.192 MicroJy iter=     7004
   3    3   28-FEB-2009  03:31:05     IMAGR     Field    3 Clean flux density=  118.188 MilliJy     7004 comps
   3    3   28-FEB-2009  03:31:05     IMAGR     Total Cleaned flux density     =   15.206      Jy    39205 comps
   3    2   28-FEB-2009  03:31:06     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:06     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:10     IMAGR     Field   6 min =   -2.4 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:31:11     IMAGR     BGC Clean: using  103 cell beam + residuals >   820.85 MicroJy
   3    2   28-FEB-2009  03:31:11     IMAGR         2183 Residual map points loaded
   3    4   28-FEB-2009  03:31:11     IMAGR     Field    6 min algorithm flux= -833.793 MicroJy iter=     7568
   3    3   28-FEB-2009  03:31:11     IMAGR     Field    6 Clean flux density=  137.411 MilliJy     7568 comps
   3    3   28-FEB-2009  03:31:11     IMAGR     Total Cleaned flux density     =   15.205      Jy    39778 comps
   3    2   28-FEB-2009  03:31:11     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:11     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:15     IMAGR     Field   2 min =   -2.2 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:31:16     IMAGR     BGC Clean: using  103 cell beam + residuals >   814.71 MicroJy
   3    2   28-FEB-2009  03:31:16     IMAGR          885 Residual map points loaded
   3    4   28-FEB-2009  03:31:16     IMAGR     Field    2 min algorithm flux= -822.588 MicroJy iter=     5205
   3    3   28-FEB-2009  03:31:16     IMAGR     Field    2 Clean flux density=  -10.244 MilliJy     5205 comps
   3    3   28-FEB-2009  03:31:16     IMAGR     Total Cleaned flux density     =   15.202      Jy    40119 comps
   3    2   28-FEB-2009  03:31:16     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:16     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:19     IMAGR     Field   4 min =   -2.3 MilliJy,max =    2.3 MilliJy
   3    2   28-FEB-2009  03:31:20     IMAGR     BGC Clean: using  103 cell beam + residuals >   805.41 MicroJy
   3    2   28-FEB-2009  03:31:20     IMAGR         1708 Residual map points loaded
   3    4   28-FEB-2009  03:31:20     IMAGR     Field    4 min algorithm flux=  816.758 MicroJy iter=     6643
   3    3   28-FEB-2009  03:31:20     IMAGR     Field    4 Clean flux density=  -18.764 MilliJy     6643 comps
   3    3   28-FEB-2009  03:31:20     IMAGR     Total Cleaned flux density     =   15.200      Jy    40626 comps
   3    2   28-FEB-2009  03:31:20     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:20     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:24     IMAGR     Field   1 min =   -1.3 MilliJy,max =    1.2 MilliJy
   3    2   28-FEB-2009  03:31:24     IMAGR     BGC Clean: using  103 cell beam + residuals >   802.71 MicroJy
   3    2   28-FEB-2009  03:31:24     IMAGR          279 Residual map points loaded
   3    4   28-FEB-2009  03:31:24     IMAGR     Field    1 min algorithm flux= -806.025 MicroJy iter=     3096
   3    3   28-FEB-2009  03:31:24     IMAGR     Field    1 Clean flux density=   14.971      Jy     3096 comps
   3    3   28-FEB-2009  03:31:24     IMAGR     Total Cleaned flux density     =   15.201      Jy    40743 comps
   3    2   28-FEB-2009  03:31:24     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:24     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:28     IMAGR     Field   5 min =   -2.3 MilliJy,max =    2.1 MilliJy
   3    2   28-FEB-2009  03:31:29     IMAGR     BGC Clean: using  103 cell beam + residuals >   793.50 MicroJy
   3    2   28-FEB-2009  03:31:29     IMAGR         1679 Residual map points loaded
   3    4   28-FEB-2009  03:31:29     IMAGR     Field    5 min algorithm flux= -804.210 MicroJy iter=     7139
   3    3   28-FEB-2009  03:31:29     IMAGR     Field    5 Clean flux density=   14.581 MilliJy     7139 comps
   3    3   28-FEB-2009  03:31:29     IMAGR     Total Cleaned flux density     =   15.200      Jy    41219 comps
   3    2   28-FEB-2009  03:31:29     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:29     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:33     IMAGR     Field   7 min =   -2.8 MilliJy,max =    1.9 MilliJy
   3    2   28-FEB-2009  03:31:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   787.71 MicroJy
   3    2   28-FEB-2009  03:31:34     IMAGR          845 Residual map points loaded
   3    4   28-FEB-2009  03:31:34     IMAGR     Field    7 min algorithm flux= -794.671 MicroJy iter=     4901
   3    3   28-FEB-2009  03:31:34     IMAGR     Field    7 Clean flux density=  -12.448 MilliJy     4901 comps
   3    3   28-FEB-2009  03:31:34     IMAGR     Total Cleaned flux density     =   15.200      Jy    41556 comps
   3    2   28-FEB-2009  03:31:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:37     IMAGR     Field   3 min =   -2.5 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:31:38     IMAGR     BGC Clean: using  103 cell beam + residuals >   778.31 MicroJy
   3    2   28-FEB-2009  03:31:38     IMAGR         1916 Residual map points loaded
   3    4   28-FEB-2009  03:31:38     IMAGR     Field    3 min algorithm flux= -789.325 MicroJy iter=     7506
   3    3   28-FEB-2009  03:31:38     IMAGR     Field    3 Clean flux density=  118.521 MilliJy     7506 comps
   3    3   28-FEB-2009  03:31:38     IMAGR     Total Cleaned flux density     =   15.200      Jy    42058 comps
   3    2   28-FEB-2009  03:31:38     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:38     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:42     IMAGR     Field   6 min =   -2.3 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:31:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   768.32 MicroJy
   3    2   28-FEB-2009  03:31:42     IMAGR         2148 Residual map points loaded
   3    4   28-FEB-2009  03:31:42     IMAGR     Field    6 min algorithm flux=  780.073 MicroJy iter=     8122
   3    3   28-FEB-2009  03:31:42     IMAGR     Field    6 Clean flux density=  139.369 MilliJy     8122 comps
   3    3   28-FEB-2009  03:31:42     IMAGR     Total Cleaned flux density     =   15.202      Jy    42612 comps
   3    2   28-FEB-2009  03:31:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:47     IMAGR     Field   2 min =   -2.2 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:31:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   762.51 MicroJy
   3    2   28-FEB-2009  03:31:47     IMAGR          909 Residual map points loaded
   3    4   28-FEB-2009  03:31:47     IMAGR     Field    2 min algorithm flux=  769.461 MicroJy iter=     5550
   3    3   28-FEB-2009  03:31:47     IMAGR     Field    2 Clean flux density=  -11.596 MilliJy     5550 comps
   3    3   28-FEB-2009  03:31:47     IMAGR     Total Cleaned flux density     =   15.201      Jy    42957 comps
   3    2   28-FEB-2009  03:31:47     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:47     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:54     IMAGR     Field   4 min =   -2.2 MilliJy,max =    2.2 MilliJy
   3    2   28-FEB-2009  03:31:55     IMAGR     BGC Clean: using  103 cell beam + residuals >   754.42 MicroJy
   3    2   28-FEB-2009  03:31:55     IMAGR         1864 Residual map points loaded
   3    4   28-FEB-2009  03:31:55     IMAGR     Field    4 min algorithm flux=  764.785 MicroJy iter=     7170
   3    3   28-FEB-2009  03:31:55     IMAGR     Field    4 Clean flux density=  -19.137 MilliJy     7170 comps
   3    3   28-FEB-2009  03:31:55     IMAGR     Total Cleaned flux density     =   15.201      Jy    43484 comps
   3    2   28-FEB-2009  03:31:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:31:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:31:59     IMAGR     Field   1 min =   -1.2 MilliJy,max =    1.1 MilliJy
   3    2   28-FEB-2009  03:31:59     IMAGR     BGC Clean: using  103 cell beam + residuals >   751.88 MicroJy
   3    2   28-FEB-2009  03:32:00     IMAGR          277 Residual map points loaded
   3    4   28-FEB-2009  03:32:00     IMAGR     Field    1 min algorithm flux= -754.818 MicroJy iter=     3217
   3    3   28-FEB-2009  03:32:00     IMAGR     Field    1 Clean flux density=   14.971      Jy     3217 comps
   3    3   28-FEB-2009  03:32:00     IMAGR     Total Cleaned flux density     =   15.200      Jy    43605 comps
   3    2   28-FEB-2009  03:32:00     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:00     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:01     IMAGR     Field   5 min =   -2.3 MilliJy,max =    2.0 MilliJy
   3    2   28-FEB-2009  03:32:02     IMAGR     BGC Clean: using  103 cell beam + residuals >   744.05 MicroJy
   3    2   28-FEB-2009  03:32:02     IMAGR         1936 Residual map points loaded
   3    4   28-FEB-2009  03:32:02     IMAGR     Field    5 min algorithm flux=  754.787 MicroJy iter=     7687
   3    3   28-FEB-2009  03:32:02     IMAGR     Field    5 Clean flux density=   15.060 MilliJy     7687 comps
   3    3   28-FEB-2009  03:32:02     IMAGR     Total Cleaned flux density     =   15.201      Jy    44153 comps
   3    2   28-FEB-2009  03:32:02     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:02     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:18     IMAGR     Field   7 min =   -2.7 MilliJy,max =    1.8 MilliJy
   3    2   28-FEB-2009  03:32:20     IMAGR     BGC Clean: using  103 cell beam + residuals >   738.62 MicroJy
   3    2   28-FEB-2009  03:32:20     IMAGR          840 Residual map points loaded
   3    4   28-FEB-2009  03:32:20     IMAGR     Field    7 min algorithm flux= -745.172 MicroJy iter=     5236
   3    3   28-FEB-2009  03:32:20     IMAGR     Field    7 Clean flux density=  -10.367 MilliJy     5236 comps
   3    3   28-FEB-2009  03:32:20     IMAGR     Total Cleaned flux density     =   15.203      Jy    44488 comps
   3    2   28-FEB-2009  03:32:20     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:20     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:23     IMAGR     Field   3 min =   -2.5 MilliJy,max =    2.7 MilliJy
   3    2   28-FEB-2009  03:32:24     IMAGR     BGC Clean: using  103 cell beam + residuals >   730.67 MicroJy
   3    2   28-FEB-2009  03:32:24     IMAGR         2085 Residual map points loaded
   3    4   28-FEB-2009  03:32:24     IMAGR     Field    3 min algorithm flux=  741.455 MicroJy iter=     8086
   3    3   28-FEB-2009  03:32:24     IMAGR     Field    3 Clean flux density=  117.923 MilliJy     8086 comps
   3    3   28-FEB-2009  03:32:24     IMAGR     Total Cleaned flux density     =   15.202      Jy    45068 comps
   3    2   28-FEB-2009  03:32:24     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:24     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:28     IMAGR     Field   6 min =   -2.3 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:32:29     IMAGR     BGC Clean: using  103 cell beam + residuals >   722.24 MicroJy
   3    2   28-FEB-2009  03:32:29     IMAGR         2191 Residual map points loaded
   3    4   28-FEB-2009  03:32:29     IMAGR     Field    6 min algorithm flux=  732.381 MicroJy iter=     8673
   3    3   28-FEB-2009  03:32:29     IMAGR     Field    6 Clean flux density=  139.848 MilliJy     8673 comps
   3    3   28-FEB-2009  03:32:29     IMAGR     Total Cleaned flux density     =   15.203      Jy    45619 comps
   3    2   28-FEB-2009  03:32:29     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:29     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:34     IMAGR     Field   2 min =   -2.1 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:32:35     IMAGR     BGC Clean: using  103 cell beam + residuals >   717.21 MicroJy
   3    2   28-FEB-2009  03:32:35     IMAGR          960 Residual map points loaded
   3    4   28-FEB-2009  03:32:35     IMAGR     Field    2 min algorithm flux=  723.493 MicroJy iter=     5907
   3    3   28-FEB-2009  03:32:35     IMAGR     Field    2 Clean flux density=  -12.849 MilliJy     5907 comps
   3    3   28-FEB-2009  03:32:35     IMAGR     Total Cleaned flux density     =   15.201      Jy    45976 comps
   3    2   28-FEB-2009  03:32:35     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:35     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:38     IMAGR     Field   4 min =   -2.2 MilliJy,max =    2.2 MilliJy
   3    2   28-FEB-2009  03:32:40     IMAGR     BGC Clean: using  103 cell beam + residuals >   709.77 MicroJy
   3    2   28-FEB-2009  03:32:40     IMAGR         1944 Residual map points loaded
   3    4   28-FEB-2009  03:32:40     IMAGR     Field    4 min algorithm flux=  719.429 MicroJy iter=     7727
   3    3   28-FEB-2009  03:32:40     IMAGR     Field    4 Clean flux density=  -17.930 MilliJy     7727 comps
   3    3   28-FEB-2009  03:32:40     IMAGR     Total Cleaned flux density     =   15.203      Jy    46533 comps
   3    2   28-FEB-2009  03:32:40     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:40     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:45     IMAGR     Field   5 min =   -2.3 MilliJy,max =    1.9 MilliJy
   3    2   28-FEB-2009  03:32:46     IMAGR     BGC Clean: using  103 cell beam + residuals >   702.52 MicroJy
   3    2   28-FEB-2009  03:32:46     IMAGR         1862 Residual map points loaded
   3    4   28-FEB-2009  03:32:46     IMAGR     Field    5 min algorithm flux= -711.541 MicroJy iter=     8202
   3    3   28-FEB-2009  03:32:46     IMAGR     Field    5 Clean flux density=   14.555 MilliJy     8202 comps
   3    3   28-FEB-2009  03:32:46     IMAGR     Total Cleaned flux density     =   15.202      Jy    47048 comps
   3    2   28-FEB-2009  03:32:46     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:46     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:50     IMAGR     Field   1 min =   -1.2 MilliJy,max =    1.1 MilliJy
   3    2   28-FEB-2009  03:32:51     IMAGR     BGC Clean: using  103 cell beam + residuals >   699.88 MicroJy
   3    2   28-FEB-2009  03:32:51     IMAGR          355 Residual map points loaded
   3    4   28-FEB-2009  03:32:51     IMAGR     Field    1 min algorithm flux= -703.247 MicroJy iter=     3368
   3    3   28-FEB-2009  03:32:51     IMAGR     Field    1 Clean flux density=   14.972      Jy     3368 comps
   3    3   28-FEB-2009  03:32:51     IMAGR     Total Cleaned flux density     =   15.203      Jy    47199 comps
   3    2   28-FEB-2009  03:32:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:53     IMAGR     Field   7 min =   -2.6 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:32:55     IMAGR     BGC Clean: using  103 cell beam + residuals >   695.39 MicroJy
   3    2   28-FEB-2009  03:32:55     IMAGR          877 Residual map points loaded
   3    4   28-FEB-2009  03:32:55     IMAGR     Field    7 min algorithm flux= -701.102 MicroJy iter=     5576
   3    3   28-FEB-2009  03:32:55     IMAGR     Field    7 Clean flux density=   -8.901 MilliJy     5576 comps
   3    3   28-FEB-2009  03:32:55     IMAGR     Total Cleaned flux density     =   15.204      Jy    47539 comps
   3    2   28-FEB-2009  03:32:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:32:58     IMAGR     Field   3 min =   -2.4 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:32:59     IMAGR     BGC Clean: using  103 cell beam + residuals >   687.44 MicroJy
   3    2   28-FEB-2009  03:32:59     IMAGR         2123 Residual map points loaded
   3    4   28-FEB-2009  03:32:59     IMAGR     Field    3 min algorithm flux= -696.569 MicroJy iter=     8641
   3    3   28-FEB-2009  03:32:59     IMAGR     Field    3 Clean flux density=  114.365 MilliJy     8641 comps
   3    3   28-FEB-2009  03:32:59     IMAGR     Total Cleaned flux density     =   15.201      Jy    48094 comps
   3    2   28-FEB-2009  03:32:59     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:32:59     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:03     IMAGR     Field   6 min =   -2.2 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:33:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   679.52 MicroJy
   3    2   28-FEB-2009  03:33:04     IMAGR         2272 Residual map points loaded
   3    4   28-FEB-2009  03:33:04     IMAGR     Field    6 min algorithm flux= -689.194 MicroJy iter=     9260
   3    3   28-FEB-2009  03:33:04     IMAGR     Field    6 Clean flux density=  139.870 MilliJy     9260 comps
   3    3   28-FEB-2009  03:33:04     IMAGR     Total Cleaned flux density     =   15.201      Jy    48681 comps
   3    2   28-FEB-2009  03:33:04     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:04     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:09     IMAGR     Field   2 min =   -2.1 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:33:10     IMAGR     BGC Clean: using  103 cell beam + residuals >   675.07 MicroJy
   3    2   28-FEB-2009  03:33:10     IMAGR          960 Residual map points loaded
   3    4   28-FEB-2009  03:33:10     IMAGR     Field    2 min algorithm flux=  680.558 MicroJy iter=     6250
   3    3   28-FEB-2009  03:33:10     IMAGR     Field    2 Clean flux density=  -13.220 MilliJy     6250 comps
   3    3   28-FEB-2009  03:33:10     IMAGR     Total Cleaned flux density     =   15.200      Jy    49024 comps
   3    2   28-FEB-2009  03:33:10     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:10     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:13     IMAGR     Field   4 min =   -2.2 MilliJy,max =    2.1 MilliJy
   3    2   28-FEB-2009  03:33:15     IMAGR     BGC Clean: using  103 cell beam + residuals >   668.20 MicroJy
   3    2   28-FEB-2009  03:33:15     IMAGR         1977 Residual map points loaded
   3    4   28-FEB-2009  03:33:15     IMAGR     Field    4 min algorithm flux= -676.878 MicroJy iter=     8267
   3    3   28-FEB-2009  03:33:15     IMAGR     Field    4 Clean flux density=  -19.101 MilliJy     8267 comps
   3    3   28-FEB-2009  03:33:15     IMAGR     Total Cleaned flux density     =   15.199      Jy    49564 comps
   3    2   28-FEB-2009  03:33:15     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:15     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:20     IMAGR     Field   5 min =   -2.3 MilliJy,max =    1.8 MilliJy
   3    2   28-FEB-2009  03:33:21     IMAGR     BGC Clean: using  103 cell beam + residuals >   662.14 MicroJy
   3    2   28-FEB-2009  03:33:21     IMAGR         2373 Residual map points loaded
   3    4   28-FEB-2009  03:33:21     IMAGR     Field    5 min algorithm flux= -671.845 MicroJy iter=     8842
   3    3   28-FEB-2009  03:33:21     IMAGR     Field    5 Clean flux density=   14.166 MilliJy     8842 comps
   3    3   28-FEB-2009  03:33:21     IMAGR     Total Cleaned flux density     =   15.199      Jy    50204 comps
   3    2   28-FEB-2009  03:33:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:27     IMAGR     Field   1 min =   -1.1 MilliJy,max =    1.0 MilliJy
   3    2   28-FEB-2009  03:33:28     IMAGR     BGC Clean: using  103 cell beam + residuals >   660.09 MicroJy
   3    2   28-FEB-2009  03:33:28     IMAGR          362 Residual map points loaded
   3    4   28-FEB-2009  03:33:28     IMAGR     Field    1 min algorithm flux=  662.850 MicroJy iter=     3529
   3    3   28-FEB-2009  03:33:28     IMAGR     Field    1 Clean flux density=   14.973      Jy     3529 comps
   3    3   28-FEB-2009  03:33:28     IMAGR     Total Cleaned flux density     =   15.200      Jy    50365 comps
   3    2   28-FEB-2009  03:33:28     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:28     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:32     IMAGR     Field   7 min =   -2.5 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:33:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   656.06 MicroJy
   3    2   28-FEB-2009  03:33:33     IMAGR          896 Residual map points loaded
   3    4   28-FEB-2009  03:33:33     IMAGR     Field    7 min algorithm flux=  661.509 MicroJy iter=     5934
   3    3   28-FEB-2009  03:33:33     IMAGR     Field    7 Clean flux density=   -6.305 MilliJy     5934 comps
   3    3   28-FEB-2009  03:33:33     IMAGR     Total Cleaned flux density     =   15.203      Jy    50723 comps
   3    2   28-FEB-2009  03:33:33     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:33     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:36     IMAGR     Field   3 min =   -2.3 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:33:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   649.44 MicroJy
   3    2   28-FEB-2009  03:33:37     IMAGR         2251 Residual map points loaded
   3    4   28-FEB-2009  03:33:37     IMAGR     Field    3 min algorithm flux=  658.332 MicroJy iter=     9250
   3    3   28-FEB-2009  03:33:37     IMAGR     Field    3 Clean flux density=  113.110 MilliJy     9250 comps
   3    3   28-FEB-2009  03:33:37     IMAGR     Total Cleaned flux density     =   15.201      Jy    51332 comps
   3    2   28-FEB-2009  03:33:37     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:37     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:41     IMAGR     Field   6 min =   -2.3 MilliJy,max =    2.4 MilliJy
   3    2   28-FEB-2009  03:33:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   642.94 MicroJy
   3    2   28-FEB-2009  03:33:42     IMAGR         2479 Residual map points loaded
   3    4   28-FEB-2009  03:33:42     IMAGR     Field    6 min algorithm flux= -651.791 MicroJy iter=     9861
   3    3   28-FEB-2009  03:33:42     IMAGR     Field    6 Clean flux density=  138.986 MilliJy     9861 comps
   3    3   28-FEB-2009  03:33:42     IMAGR     Total Cleaned flux density     =   15.200      Jy    51933 comps
   3    2   28-FEB-2009  03:33:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:47     IMAGR     Field   2 min =   -2.0 MilliJy,max =    2.4 MilliJy
   3    2   28-FEB-2009  03:33:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   639.16 MicroJy
   3    2   28-FEB-2009  03:33:47     IMAGR         1083 Residual map points loaded
   3    4   28-FEB-2009  03:33:47     IMAGR     Field    2 min algorithm flux=  644.768 MicroJy iter=     6636
   3    3   28-FEB-2009  03:33:47     IMAGR     Field    2 Clean flux density=  -14.834 MilliJy     6636 comps
   3    3   28-FEB-2009  03:33:47     IMAGR     Total Cleaned flux density     =   15.199      Jy    52319 comps
   3    2   28-FEB-2009  03:33:47     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:47     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:51     IMAGR     Field   4 min =   -2.1 MilliJy,max =    2.0 MilliJy
   3    2   28-FEB-2009  03:33:52     IMAGR     BGC Clean: using  103 cell beam + residuals >   633.76 MicroJy
   3    2   28-FEB-2009  03:33:52     IMAGR         2174 Residual map points loaded
   3    4   28-FEB-2009  03:33:52     IMAGR     Field    4 min algorithm flux= -641.841 MicroJy iter=     8844
   3    3   28-FEB-2009  03:33:52     IMAGR     Field    4 Clean flux density=  -18.733 MilliJy     8844 comps
   3    3   28-FEB-2009  03:33:52     IMAGR     Total Cleaned flux density     =   15.199      Jy    52896 comps
   3    2   28-FEB-2009  03:33:52     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:52     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:33:57     IMAGR     Field   5 min =   -2.2 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:33:57     IMAGR     BGC Clean: using  103 cell beam + residuals >   626.88 MicroJy
   3    2   28-FEB-2009  03:33:58     IMAGR         2120 Residual map points loaded
   3    4   28-FEB-2009  03:33:58     IMAGR     Field    5 min algorithm flux=  634.839 MicroJy iter=     9412
   3    3   28-FEB-2009  03:33:58     IMAGR     Field    5 Clean flux density=   12.965 MilliJy     9412 comps
   3    3   28-FEB-2009  03:33:58     IMAGR     Total Cleaned flux density     =   15.198      Jy    53466 comps
   3    2   28-FEB-2009  03:33:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:33:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:02     IMAGR     Field   1 min = -985.8 MicroJy,max =  948.7 MicroJy
   3    2   28-FEB-2009  03:34:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   624.92 MicroJy
   3    2   28-FEB-2009  03:34:03     IMAGR          279 Residual map points loaded
   3    4   28-FEB-2009  03:34:03     IMAGR     Field    1 min algorithm flux=  627.225 MicroJy iter=     3651
   3    3   28-FEB-2009  03:34:03     IMAGR     Field    1 Clean flux density=   14.973      Jy     3651 comps
   3    3   28-FEB-2009  03:34:03     IMAGR     Total Cleaned flux density     =   15.198      Jy    53588 comps
   3    2   28-FEB-2009  03:34:03     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:03     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:06     IMAGR     Field   7 min =   -2.4 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:34:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   621.52 MicroJy
   3    2   28-FEB-2009  03:34:07     IMAGR          891 Residual map points loaded
   3    4   28-FEB-2009  03:34:07     IMAGR     Field    7 min algorithm flux=  626.396 MicroJy iter=     6281
   3    3   28-FEB-2009  03:34:07     IMAGR     Field    7 Clean flux density=   -5.985 MilliJy     6281 comps
   3    3   28-FEB-2009  03:34:07     IMAGR     Total Cleaned flux density     =   15.199      Jy    53935 comps
   3    2   28-FEB-2009  03:34:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:11     IMAGR     Field   3 min =   -2.3 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:34:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   615.28 MicroJy
   3    2   28-FEB-2009  03:34:12     IMAGR         2241 Residual map points loaded
   3    4   28-FEB-2009  03:34:12     IMAGR     Field    3 min algorithm flux= -623.333 MicroJy iter=     9858
   3    3   28-FEB-2009  03:34:12     IMAGR     Field    3 Clean flux density=  112.864 MilliJy     9858 comps
   3    3   28-FEB-2009  03:34:12     IMAGR     Total Cleaned flux density     =   15.198      Jy    54543 comps
   3    2   28-FEB-2009  03:34:12     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:12     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:18     IMAGR     Field   6 min =   -2.2 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:34:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   608.88 MicroJy
   3    2   28-FEB-2009  03:34:18     IMAGR         2397 Residual map points loaded
   3    4   28-FEB-2009  03:34:19     IMAGR     Field    6 min algorithm flux= -617.001 MicroJy iter=    10478
   3    3   28-FEB-2009  03:34:21     IMAGR     Field    6 Clean flux density=  138.936 MilliJy    10478 comps
   3    3   28-FEB-2009  03:34:22     IMAGR     Total Cleaned flux density     =   15.198      Jy    55160 comps
   3    2   28-FEB-2009  03:34:22     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:22     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:28     IMAGR     Field   2 min =   -2.0 MilliJy,max =    2.3 MilliJy
   3    2   28-FEB-2009  03:34:29     IMAGR     BGC Clean: using  103 cell beam + residuals >   605.23 MicroJy
   3    2   28-FEB-2009  03:34:29     IMAGR         1110 Residual map points loaded
   3    4   28-FEB-2009  03:34:29     IMAGR     Field    2 min algorithm flux=  610.032 MicroJy iter=     7006
   3    3   28-FEB-2009  03:34:29     IMAGR     Field    2 Clean flux density=  -16.118 MilliJy     7006 comps
   3    3   28-FEB-2009  03:34:29     IMAGR     Total Cleaned flux density     =   15.197      Jy    55530 comps
   3    2   28-FEB-2009  03:34:29     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:29     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:32     IMAGR     Field   4 min =   -2.1 MilliJy,max =    1.9 MilliJy
   3    2   28-FEB-2009  03:34:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   599.47 MicroJy
   3    2   28-FEB-2009  03:34:33     IMAGR         2250 Residual map points loaded
   3    4   28-FEB-2009  03:34:33     IMAGR     Field    4 min algorithm flux=  607.236 MicroJy iter=     9473
   3    3   28-FEB-2009  03:34:33     IMAGR     Field    4 Clean flux density=  -21.570 MilliJy     9473 comps
   3    3   28-FEB-2009  03:34:33     IMAGR     Total Cleaned flux density     =   15.194      Jy    56159 comps
   3    2   28-FEB-2009  03:34:33     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:33     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:38     IMAGR     Field   5 min =   -2.2 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:34:39     IMAGR     BGC Clean: using  103 cell beam + residuals >   594.33 MicroJy
   3    2   28-FEB-2009  03:34:39     IMAGR         2384 Residual map points loaded
   3    4   28-FEB-2009  03:34:39     IMAGR     Field    5 min algorithm flux=  602.307 MicroJy iter=    10048
   3    3   28-FEB-2009  03:34:39     IMAGR     Field    5 Clean flux density=   13.535 MilliJy    10048 comps
   3    3   28-FEB-2009  03:34:39     IMAGR     Total Cleaned flux density     =   15.195      Jy    56795 comps
   3    2   28-FEB-2009  03:34:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:44     IMAGR     Field   1 min = -970.4 MicroJy,max =  933.0 MicroJy
   3    2   28-FEB-2009  03:34:44     IMAGR     BGC Clean: using  103 cell beam + residuals >   592.98 MicroJy
   3    2   28-FEB-2009  03:34:45     IMAGR          289 Residual map points loaded
   3    4   28-FEB-2009  03:34:45     IMAGR     Field    1 min algorithm flux=  595.264 MicroJy iter=     3779
   3    3   28-FEB-2009  03:34:45     IMAGR     Field    1 Clean flux density=   14.973      Jy     3779 comps
   3    3   28-FEB-2009  03:34:45     IMAGR     Total Cleaned flux density     =   15.194      Jy    56923 comps
   3    2   28-FEB-2009  03:34:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:46     IMAGR     Field   7 min =   -2.3 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:34:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   589.71 MicroJy
   3    2   28-FEB-2009  03:34:47     IMAGR         1025 Residual map points loaded
   3    4   28-FEB-2009  03:34:47     IMAGR     Field    7 min algorithm flux=  594.375 MicroJy iter=     6657
   3    3   28-FEB-2009  03:34:47     IMAGR     Field    7 Clean flux density=   -5.025 MilliJy     6657 comps
   3    3   28-FEB-2009  03:34:47     IMAGR     Total Cleaned flux density     =   15.195      Jy    57299 comps
   3    2   28-FEB-2009  03:34:47     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:47     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:50     IMAGR     Field   3 min =   -2.3 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:34:51     IMAGR     BGC Clean: using  103 cell beam + residuals >   584.20 MicroJy
   3    2   28-FEB-2009  03:34:51     IMAGR         2338 Residual map points loaded
   3    4   28-FEB-2009  03:34:51     IMAGR     Field    3 min algorithm flux= -591.720 MicroJy iter=    10474
   3    3   28-FEB-2009  03:34:51     IMAGR     Field    3 Clean flux density=  112.589 MilliJy    10474 comps
   3    3   28-FEB-2009  03:34:51     IMAGR     Total Cleaned flux density     =   15.195      Jy    57915 comps
   3    2   28-FEB-2009  03:34:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:34:55     IMAGR     Field   6 min =   -2.2 MilliJy,max =    2.4 MilliJy
   3    2   28-FEB-2009  03:34:58     IMAGR     BGC Clean: using  103 cell beam + residuals >   578.68 MicroJy
   3    2   28-FEB-2009  03:34:58     IMAGR         2588 Residual map points loaded
   3    4   28-FEB-2009  03:34:58     IMAGR     Field    6 min algorithm flux=  586.339 MicroJy iter=    11134
   3    3   28-FEB-2009  03:34:58     IMAGR     Field    6 Clean flux density=  136.583 MilliJy    11134 comps
   3    3   28-FEB-2009  03:34:58     IMAGR     Total Cleaned flux density     =   15.193      Jy    58571 comps
   3    2   28-FEB-2009  03:34:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:34:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:03     IMAGR     Field   2 min =   -1.9 MilliJy,max =    2.3 MilliJy
   3    2   28-FEB-2009  03:35:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   575.72 MicroJy
   3    2   28-FEB-2009  03:35:03     IMAGR         1262 Residual map points loaded
   3    4   28-FEB-2009  03:35:03     IMAGR     Field    2 min algorithm flux= -580.994 MicroJy iter=     7434
   3    3   28-FEB-2009  03:35:03     IMAGR     Field    2 Clean flux density=  -18.590 MilliJy     7434 comps
   3    3   28-FEB-2009  03:35:03     IMAGR     Total Cleaned flux density     =   15.190      Jy    58999 comps
   3    2   28-FEB-2009  03:35:03     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:03     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:08     IMAGR     Field   4 min =   -2.0 MilliJy,max =    1.9 MilliJy
   3    2   28-FEB-2009  03:35:10     IMAGR     BGC Clean: using  103 cell beam + residuals >   570.49 MicroJy
   3    2   28-FEB-2009  03:35:10     IMAGR         2159 Residual map points loaded
   3    4   28-FEB-2009  03:35:10     IMAGR     Field    4 min algorithm flux=  577.065 MicroJy iter=    10078
   3    3   28-FEB-2009  03:35:10     IMAGR     Field    4 Clean flux density=  -22.812 MilliJy    10078 comps
   3    3   28-FEB-2009  03:35:10     IMAGR     Total Cleaned flux density     =   15.189      Jy    59604 comps
   3    2   28-FEB-2009  03:35:10     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:10     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:15     IMAGR     Field   5 min =   -2.1 MilliJy,max =    1.6 MilliJy
   3    2   28-FEB-2009  03:35:17     IMAGR     BGC Clean: using  103 cell beam + residuals >   565.52 MicroJy
   3    2   28-FEB-2009  03:35:17     IMAGR         2437 Residual map points loaded
   3    4   28-FEB-2009  03:35:17     IMAGR     Field    5 min algorithm flux= -572.796 MicroJy iter=    10682
   3    3   28-FEB-2009  03:35:17     IMAGR     Field    5 Clean flux density=   13.164 MilliJy    10682 comps
   3    3   28-FEB-2009  03:35:17     IMAGR     Total Cleaned flux density     =   15.189      Jy    60238 comps
   3    2   28-FEB-2009  03:35:17     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:17     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:22     IMAGR     Field   1 min = -847.1 MicroJy,max =  859.7 MicroJy
   3    2   28-FEB-2009  03:35:23     IMAGR     BGC Clean: using  103 cell beam + residuals >   564.29 MicroJy
   3    2   28-FEB-2009  03:35:23     IMAGR          339 Residual map points loaded
   3    4   28-FEB-2009  03:35:23     IMAGR     Field    1 min algorithm flux= -566.449 MicroJy iter=     3932
   3    3   28-FEB-2009  03:35:23     IMAGR     Field    1 Clean flux density=   14.973      Jy     3932 comps
   3    3   28-FEB-2009  03:35:23     IMAGR     Total Cleaned flux density     =   15.189      Jy    60391 comps
   3    2   28-FEB-2009  03:35:23     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:23     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:29     IMAGR     Field   7 min =   -2.2 MilliJy,max =    1.6 MilliJy
   3    2   28-FEB-2009  03:35:30     IMAGR     BGC Clean: using  103 cell beam + residuals >   561.38 MicroJy
   3    2   28-FEB-2009  03:35:30     IMAGR         1086 Residual map points loaded
   3    4   28-FEB-2009  03:35:30     IMAGR     Field    7 min algorithm flux= -565.938 MicroJy iter=     7055
   3    3   28-FEB-2009  03:35:30     IMAGR     Field    7 Clean flux density=   -4.853 MilliJy     7055 comps
   3    3   28-FEB-2009  03:35:30     IMAGR     Total Cleaned flux density     =   15.189      Jy    60789 comps
   3    2   28-FEB-2009  03:35:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:35     IMAGR     Field   3 min =   -2.3 MilliJy,max =    2.6 MilliJy
   3    2   28-FEB-2009  03:35:36     IMAGR     BGC Clean: using  103 cell beam + residuals >   556.63 MicroJy
   3    2   28-FEB-2009  03:35:36     IMAGR         2439 Residual map points loaded
   3    4   28-FEB-2009  03:35:36     IMAGR     Field    3 min algorithm flux= -563.376 MicroJy iter=    11103
   3    3   28-FEB-2009  03:35:36     IMAGR     Field    3 Clean flux density=  111.408 MilliJy    11103 comps
   3    3   28-FEB-2009  03:35:36     IMAGR     Total Cleaned flux density     =   15.188      Jy    61418 comps
   3    2   28-FEB-2009  03:35:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:40     IMAGR     Field   6 min =   -2.2 MilliJy,max =    2.4 MilliJy
   3    2   28-FEB-2009  03:35:41     IMAGR     BGC Clean: using  103 cell beam + residuals >   551.86 MicroJy
   3    2   28-FEB-2009  03:35:41     IMAGR         2616 Residual map points loaded
   3    4   28-FEB-2009  03:35:41     IMAGR     Field    6 min algorithm flux=  558.940 MicroJy iter=    11808
   3    3   28-FEB-2009  03:35:41     IMAGR     Field    6 Clean flux density=  135.515 MilliJy    11808 comps
   3    3   28-FEB-2009  03:35:41     IMAGR     Total Cleaned flux density     =   15.187      Jy    62092 comps
   3    2   28-FEB-2009  03:35:41     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:41     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:46     IMAGR     Field   2 min =   -1.9 MilliJy,max =    2.2 MilliJy
   3    2   28-FEB-2009  03:35:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   548.60 MicroJy
   3    2   28-FEB-2009  03:35:47     IMAGR         1228 Residual map points loaded
   3    4   28-FEB-2009  03:35:47     IMAGR     Field    2 min algorithm flux=  553.238 MicroJy iter=     7863
   3    3   28-FEB-2009  03:35:47     IMAGR     Field    2 Clean flux density=  -19.569 MilliJy     7863 comps
   3    3   28-FEB-2009  03:35:47     IMAGR     Total Cleaned flux density     =   15.186      Jy    62521 comps
   3    2   28-FEB-2009  03:35:47     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:47     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:51     IMAGR     Field   4 min =   -2.0 MilliJy,max =    1.8 MilliJy
   3    2   28-FEB-2009  03:35:52     IMAGR     BGC Clean: using  103 cell beam + residuals >   544.20 MicroJy
   3    2   28-FEB-2009  03:35:52     IMAGR         2259 Residual map points loaded
   3    4   28-FEB-2009  03:35:52     IMAGR     Field    4 min algorithm flux=  550.504 MicroJy iter=    10694
   3    3   28-FEB-2009  03:35:52     IMAGR     Field    4 Clean flux density=  -23.017 MilliJy    10694 comps
   3    3   28-FEB-2009  03:35:52     IMAGR     Total Cleaned flux density     =   15.186      Jy    63137 comps
   3    2   28-FEB-2009  03:35:52     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:52     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:35:57     IMAGR     Field   5 min =   -2.1 MilliJy,max =    1.6 MilliJy
   3    2   28-FEB-2009  03:35:57     IMAGR     BGC Clean: using  103 cell beam + residuals >   539.60 MicroJy
   3    2   28-FEB-2009  03:35:57     IMAGR         2335 Residual map points loaded
   3    4   28-FEB-2009  03:35:57     IMAGR     Field    5 min algorithm flux= -546.100 MicroJy iter=    11307
   3    3   28-FEB-2009  03:35:57     IMAGR     Field    5 Clean flux density=   11.645 MilliJy    11307 comps
   3    3   28-FEB-2009  03:35:57     IMAGR     Total Cleaned flux density     =   15.184      Jy    63762 comps
   3    2   28-FEB-2009  03:35:57     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:35:57     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:02     IMAGR     Field   1 min = -822.2 MicroJy,max =  810.8 MicroJy
   3    2   28-FEB-2009  03:36:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   538.36 MicroJy
   3    2   28-FEB-2009  03:36:03     IMAGR          319 Residual map points loaded
   3    4   28-FEB-2009  03:36:03     IMAGR     Field    1 min algorithm flux=  540.388 MicroJy iter=     4061
   3    3   28-FEB-2009  03:36:03     IMAGR     Field    1 Clean flux density=   14.974      Jy     4061 comps
   3    3   28-FEB-2009  03:36:03     IMAGR     Total Cleaned flux density     =   15.185      Jy    63891 comps
   3    2   28-FEB-2009  03:36:03     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:03     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:06     IMAGR     Field   7 min =   -2.1 MilliJy,max =    1.6 MilliJy
   3    2   28-FEB-2009  03:36:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   535.69 MicroJy
   3    2   28-FEB-2009  03:36:07     IMAGR         1079 Residual map points loaded
   3    4   28-FEB-2009  03:36:07     IMAGR     Field    7 min algorithm flux=  539.811 MicroJy iter=     7438
   3    3   28-FEB-2009  03:36:07     IMAGR     Field    7 Clean flux density=   -5.253 MilliJy     7438 comps
   3    3   28-FEB-2009  03:36:07     IMAGR     Total Cleaned flux density     =   15.185      Jy    64274 comps
   3    2   28-FEB-2009  03:36:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:10     IMAGR     Field   3 min =   -2.3 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:36:11     IMAGR     BGC Clean: using  103 cell beam + residuals >   531.34 MicroJy
   3    2   28-FEB-2009  03:36:11     IMAGR         2578 Residual map points loaded
   3    4   28-FEB-2009  03:36:11     IMAGR     Field    3 min algorithm flux= -537.902 MicroJy iter=    11770
   3    3   28-FEB-2009  03:36:11     IMAGR     Field    3 Clean flux density=  110.094 MilliJy    11770 comps
   3    3   28-FEB-2009  03:36:11     IMAGR     Total Cleaned flux density     =   15.183      Jy    64941 comps
   3    2   28-FEB-2009  03:36:11     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:11     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:16     IMAGR     Field   6 min =   -2.1 MilliJy,max =    2.4 MilliJy
   3    2   28-FEB-2009  03:36:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   526.58 MicroJy
   3    2   28-FEB-2009  03:36:19     IMAGR         2629 Residual map points loaded
   3    4   28-FEB-2009  03:36:19     IMAGR     Field    6 min algorithm flux= -533.008 MicroJy iter=    12455
   3    3   28-FEB-2009  03:36:19     IMAGR     Field    6 Clean flux density=  135.317 MilliJy    12455 comps
   3    3   28-FEB-2009  03:36:19     IMAGR     Total Cleaned flux density     =   15.183      Jy    65588 comps
   3    2   28-FEB-2009  03:36:19     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:19     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:25     IMAGR     Field   2 min =   -1.9 MilliJy,max =    2.1 MilliJy
   3    2   28-FEB-2009  03:36:26     IMAGR     BGC Clean: using  103 cell beam + residuals >   523.81 MicroJy
   3    2   28-FEB-2009  03:36:26     IMAGR         1222 Residual map points loaded
   3    4   28-FEB-2009  03:36:26     IMAGR     Field    2 min algorithm flux=  528.023 MicroJy iter=     8290
   3    3   28-FEB-2009  03:36:26     IMAGR     Field    2 Clean flux density=  -19.392 MilliJy     8290 comps
   3    3   28-FEB-2009  03:36:26     IMAGR     Total Cleaned flux density     =   15.183      Jy    66015 comps
   3    2   28-FEB-2009  03:36:26     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:26     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:30     IMAGR     Field   4 min =   -1.9 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:36:31     IMAGR     BGC Clean: using  103 cell beam + residuals >   520.08 MicroJy
   3    2   28-FEB-2009  03:36:31     IMAGR         2571 Residual map points loaded
   3    4   28-FEB-2009  03:36:31     IMAGR     Field    4 min algorithm flux=  526.411 MicroJy iter=    11378
   3    3   28-FEB-2009  03:36:31     IMAGR     Field    4 Clean flux density=  -23.800 MilliJy    11378 comps
   3    3   28-FEB-2009  03:36:31     IMAGR     Total Cleaned flux density     =   15.183      Jy    66699 comps
   3    2   28-FEB-2009  03:36:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:36     IMAGR     Field   5 min =   -2.1 MilliJy,max =    1.6 MilliJy
   3    2   28-FEB-2009  03:36:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   516.05 MicroJy
   3    2   28-FEB-2009  03:36:37     IMAGR         2488 Residual map points loaded
   3    4   28-FEB-2009  03:36:37     IMAGR     Field    5 min algorithm flux= -522.132 MicroJy iter=    11971
   3    3   28-FEB-2009  03:36:37     IMAGR     Field    5 Clean flux density=   12.820 MilliJy    11971 comps
   3    3   28-FEB-2009  03:36:37     IMAGR     Total Cleaned flux density     =   15.184      Jy    67363 comps
   3    2   28-FEB-2009  03:36:37     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:37     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:42     IMAGR     Field   1 min = -787.5 MicroJy,max =  733.2 MicroJy
   3    2   28-FEB-2009  03:36:43     IMAGR     BGC Clean: using  103 cell beam + residuals >   515.07 MicroJy
   3    2   28-FEB-2009  03:36:43     IMAGR          365 Residual map points loaded
   3    4   28-FEB-2009  03:36:43     IMAGR     Field    1 min algorithm flux= -516.896 MicroJy iter=     4211
   3    3   28-FEB-2009  03:36:43     IMAGR     Field    1 Clean flux density=   14.974      Jy     4211 comps
   3    3   28-FEB-2009  03:36:43     IMAGR     Total Cleaned flux density     =   15.184      Jy    67513 comps
   3    2   28-FEB-2009  03:36:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:45     IMAGR     Field   7 min =   -2.1 MilliJy,max =    1.6 MilliJy
   3    2   28-FEB-2009  03:36:46     IMAGR     BGC Clean: using  103 cell beam + residuals >   512.96 MicroJy
   3    2   28-FEB-2009  03:36:46     IMAGR         1258 Residual map points loaded
   3    4   28-FEB-2009  03:36:46     IMAGR     Field    7 min algorithm flux=  517.135 MicroJy iter=     7878
   3    3   28-FEB-2009  03:36:46     IMAGR     Field    7 Clean flux density=   -2.776 MilliJy     7878 comps
   3    3   28-FEB-2009  03:36:46     IMAGR     Total Cleaned flux density     =   15.187      Jy    67953 comps
   3    2   28-FEB-2009  03:36:46     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:46     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:50     IMAGR     Field   3 min =   -2.3 MilliJy,max =    2.5 MilliJy
   3    2   28-FEB-2009  03:36:51     IMAGR     BGC Clean: using  103 cell beam + residuals >   508.79 MicroJy
   3    2   28-FEB-2009  03:36:51     IMAGR         2497 Residual map points loaded
   3    4   28-FEB-2009  03:36:51     IMAGR     Field    3 min algorithm flux= -514.715 MicroJy iter=    12425
   3    3   28-FEB-2009  03:36:51     IMAGR     Field    3 Clean flux density=  109.154 MilliJy    12425 comps
   3    3   28-FEB-2009  03:36:51     IMAGR     Total Cleaned flux density     =   15.186      Jy    68608 comps
   3    2   28-FEB-2009  03:36:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:36:56     IMAGR     Field   6 min =   -2.1 MilliJy,max =    2.3 MilliJy
   3    2   28-FEB-2009  03:36:57     IMAGR     BGC Clean: using  103 cell beam + residuals >   504.92 MicroJy
   3    2   28-FEB-2009  03:36:57     IMAGR         2667 Residual map points loaded
   3    4   28-FEB-2009  03:36:57     IMAGR     Field    6 min algorithm flux= -510.947 MicroJy iter=    13138
   3    3   28-FEB-2009  03:36:57     IMAGR     Field    6 Clean flux density=  133.341 MilliJy    13138 comps
   3    3   28-FEB-2009  03:36:57     IMAGR     Total Cleaned flux density     =   15.184      Jy    69291 comps
   3    2   28-FEB-2009  03:36:57     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:36:57     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:37:02     IMAGR     Field   2 min =   -1.8 MilliJy,max =    2.1 MilliJy
   3    2   28-FEB-2009  03:37:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   502.58 MicroJy
   3    2   28-FEB-2009  03:37:03     IMAGR         1309 Residual map points loaded
   3    4   28-FEB-2009  03:37:03     IMAGR     Field    2 min algorithm flux= -506.693 MicroJy iter=     8733
   3    3   28-FEB-2009  03:37:03     IMAGR     Field    2 Clean flux density=  -19.892 MilliJy     8733 comps
   3    3   28-FEB-2009  03:37:03     IMAGR     Total Cleaned flux density     =   15.183      Jy    69734 comps
   3    2   28-FEB-2009  03:37:03     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:37:03     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:37:06     IMAGR     Field   4 min =   -1.9 MilliJy,max =    1.7 MilliJy
   3    2   28-FEB-2009  03:37:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   498.47 MicroJy
   3    2   28-FEB-2009  03:37:07     IMAGR         2389 Residual map points loaded
   3    4   28-FEB-2009  03:37:07     IMAGR     Field    4 Iter limit, Max resid= 522.710 MicroJy iter=    11644
   3    5   28-FEB-2009  03:37:07     IMAGR     Field    4 Clean flux density=  -24.028 MilliJy    11644 comps
   3    5   28-FEB-2009  03:37:07     IMAGR     Total Cleaned flux density     =   15.183      Jy    70000 comps
   3    2   28-FEB-2009  03:37:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:37:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:37:09     IMAGR     Total Clean components    70000 reaches limit   70000
   3    3   28-FEB-2009  03:37:09     IMAGR     Merging the Clean components files
   3    3   28-FEB-2009  03:37:09     IMAGR     Field    1 compressed from      4211 to      2364 components
   3    3   28-FEB-2009  03:37:09     IMAGR     Field    2 compressed from      8733 to      4180 components
   3    3   28-FEB-2009  03:37:09     IMAGR     Field    3 compressed from     12425 to      5748 components
   3    3   28-FEB-2009  03:37:09     IMAGR     Field    4 compressed from     11644 to      5299 components
   3    3   28-FEB-2009  03:37:09     IMAGR     Field    5 compressed from     11971 to      5583 components
   3    3   28-FEB-2009  03:37:09     IMAGR     Field    6 compressed from     13138 to      6115 components
   3    3   28-FEB-2009  03:37:09     IMAGR     Field    7 compressed from      7878 to      3848 components
   3    4   28-FEB-2009  03:37:10     IMAGR     Field   1 min = -761.3 MicroJy,max =  735.6 MicroJy
   3    4   28-FEB-2009  03:37:10     IMAGR     Field   2 min =   -1.8 MilliJy,max =    2.0 MilliJy
   3    4   28-FEB-2009  03:37:11     IMAGR     Field   3 min =   -2.3 MilliJy,max =    2.5 MilliJy
   3    4   28-FEB-2009  03:37:12     IMAGR     Field   4 min =   -1.8 MilliJy,max =    1.7 MilliJy
   3    4   28-FEB-2009  03:37:12     IMAGR     Field   5 min =   -2.0 MilliJy,max =    1.5 MilliJy
   3    4   28-FEB-2009  03:37:13     IMAGR     Field   6 min =   -2.0 MilliJy,max =    2.3 MilliJy
   3    4   28-FEB-2009  03:37:16     IMAGR     Field   7 min =   -2.0 MilliJy,max =    1.5 MilliJy
   3    3   28-FEB-2009  03:37:16     IMAGR     Restoring Clean components
   3    3   28-FEB-2009  03:37:34     IMAGR     Restoring overlapped Clean components
   3    3   28-FEB-2009  03:37:34     IMAGR     Restore  -5.464 MilliJy (   155 CCs) from field   1 to field   2
   3    3   28-FEB-2009  03:37:36     IMAGR     Restore   4.821 MilliJy (   258 CCs) from field   1 to field   3
   3    3   28-FEB-2009  03:37:37     IMAGR     Restore  -9.187 MilliJy (   228 CCs) from field   1 to field   4
   3    3   28-FEB-2009  03:37:37     IMAGR     Restore -12.150 MilliJy (   247 CCs) from field   1 to field   5
   3    3   28-FEB-2009  03:37:37     IMAGR     Restore -10.492 MilliJy (   234 CCs) from field   1 to field   6
   3    3   28-FEB-2009  03:37:37     IMAGR     Restore -13.361 MilliJy (   177 CCs) from field   1 to field   7
   3    3   28-FEB-2009  03:37:38     IMAGR     Restore-621.267 MicroJy (   189 CCs) from field   2 to field   1
   3    3   28-FEB-2009  03:37:38     IMAGR     Restore  -1.921 MilliJy (   330 CCs) from field   2 to field   3
   3    3   28-FEB-2009  03:37:38     IMAGR     Restore -21.677 MilliJy (   340 CCs) from field   2 to field   4
   3    3   28-FEB-2009  03:37:38     IMAGR     Restore   3.709 MilliJy (   330 CCs) from field   3 to field   1
   3    3   28-FEB-2009  03:37:38     IMAGR     Restore  11.693 MilliJy (   378 CCs) from field   3 to field   2
   3    3   28-FEB-2009  03:37:38     IMAGR     Restore   3.891 MilliJy (   204 CCs) from field   3 to field   5
   3    3   28-FEB-2009  03:37:38     IMAGR     Restore  -5.613 MilliJy (   274 CCs) from field   4 to field   1
   3    3   28-FEB-2009  03:37:38     IMAGR     Restore -10.214 MilliJy (   305 CCs) from field   4 to field   2
   3    3   28-FEB-2009  03:37:39     IMAGR     Restore -25.262 MilliJy (   256 CCs) from field   4 to field   6
   3    3   28-FEB-2009  03:37:39     IMAGR     Restore -27.143 MilliJy (   264 CCs) from field   5 to field   1
   3    3   28-FEB-2009  03:37:39     IMAGR     Restore  13.043 MilliJy (   295 CCs) from field   5 to field   3
   3    3   28-FEB-2009  03:37:39     IMAGR     Restore -11.860 MilliJy (   382 CCs) from field   5 to field   7
   3    3   28-FEB-2009  03:37:39     IMAGR     Restore -31.988 MilliJy (   398 CCs) from field   6 to field   1
   3    3   28-FEB-2009  03:37:39     IMAGR     Restore 588.329 MicroJy (   264 CCs) from field   6 to field   4
   3    3   28-FEB-2009  03:37:39     IMAGR     Restore -12.243 MilliJy (   396 CCs) from field   6 to field   7
   3    3   28-FEB-2009  03:37:40     IMAGR     Restore  -4.621 MilliJy (   180 CCs) from field   7 to field   1
   3    3   28-FEB-2009  03:37:40     IMAGR     Restore  12.918 MilliJy (   275 CCs) from field   7 to field   5
   3    3   28-FEB-2009  03:37:40     IMAGR     Restore   6.326 MilliJy (   338 CCs) from field   7 to field   6
   3    3   28-FEB-2009  03:37:40     IMAGR     Checking image max/min
   3    3   28-FEB-2009  03:37:43     IMAGR     Field    1 final Clean flux    14.908      Jy
   3    3   28-FEB-2009  03:37:45     IMAGR     Field    2 final Clean flux   -23.877 MilliJy
   3    3   28-FEB-2009  03:37:46     IMAGR     Field    3 final Clean flux   125.096 MilliJy
   3    3   28-FEB-2009  03:37:46     IMAGR     Field    4 final Clean flux   -54.304 MilliJy
   3    3   28-FEB-2009  03:37:46     IMAGR     Field    5 final Clean flux    17.478 MilliJy
   3    3   28-FEB-2009  03:37:46     IMAGR     Field    6 final Clean flux   103.913 MilliJy
   3    3   28-FEB-2009  03:37:46     IMAGR     Field    7 final Clean flux   -40.240 MilliJy
   3    6   28-FEB-2009  03:37:46     IMAGR     Deleting UV work file:
   3    4   28-FEB-2009  03:37:46     IMAGR     Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  03:37:46     IMAGR     Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  03:37:46     IMAGR     Destroyed UV image file: catno=      8 disk= 1
   3    3   28-FEB-2009  03:37:46     IMAGR     Appears to have ended successfully
   3    5   28-FEB-2009  03:37:46     IMAGR     vlbacald-b   31DEC07 TST: Cpu=     864.1  Real=    1157
   3    2   28-FEB-2009  03:37:46     AIPS      Resumes
   3    3   28-FEB-2009  03:37:46     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:37:46     AIPS      rm -f /tmp/SETFC@1328+307_LBAND1.0-1 >& /dev/null
   3    5   28-FEB-2009  03:37:46     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:37:47     UVPLT     GFINIS: number records used    3828
   3    2   28-FEB-2009  03:37:47     UVPLT     PLTUV:      81262 Points plotted
   3    2   28-FEB-2009  03:37:47     UVPLT     PLTUV: Plot file version    1  created.
   3    3   28-FEB-2009  03:37:47     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:37:47     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       1
   3    2   28-FEB-2009  03:37:47     AIPS      Resumes
   3    5   28-FEB-2009  03:37:47     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:37:47     UVPLT     GFINIS: number records used    1916
   3    2   28-FEB-2009  03:37:47     UVPLT     PLTUV:      40631 Points plotted
   3    2   28-FEB-2009  03:37:47     UVPLT     PLTUV: Plot file version    2  created.
   3    3   28-FEB-2009  03:37:47     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:37:47     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    2   28-FEB-2009  03:37:47     AIPS      Resumes
   3    5   28-FEB-2009  03:37:47     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:37:47     UVPLT     GFINIS: number records used    1916
   3    2   28-FEB-2009  03:37:47     UVPLT     PLTUV:      40631 Points plotted
   3    2   28-FEB-2009  03:37:47     UVPLT     PLTUV: Plot file version    3  created.
   3    3   28-FEB-2009  03:37:47     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:37:47     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    2   28-FEB-2009  03:37:47     AIPS      Resumes
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed MA image file: catno=      9 disk= 1
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed MA image file: catno=     10 disk= 1
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed MA image file: catno=     11 disk= 1
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed MA image file: catno=     12 disk= 1
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed MA image file: catno=     13 disk= 1
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed MA image file: catno=     14 disk= 1
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:37:47     AIPS      Destroyed MA image file: catno=     15 disk= 1
   3    2   28-FEB-2009  03:37:47     AIPS      Disk  1 in-CNO   16 renumbered as CNO    8
   3    2   28-FEB-2009  03:37:47     AIPS      Disk  1 in-CNO   17 renumbered as CNO    9
   3    2   28-FEB-2009  03:37:47     AIPS      Disk  1 in-CNO   18 renumbered as CNO   10
   3    2   28-FEB-2009  03:37:47     AIPS      Disk  1 in-CNO   19 renumbered as CNO   11
   3    2   28-FEB-2009  03:37:47     AIPS      Disk  1 in-CNO   20 renumbered as CNO   12
   3    2   28-FEB-2009  03:37:47     AIPS      Disk  1 in-CNO   21 renumbered as CNO   13
   3    2   28-FEB-2009  03:37:47     AIPS      Disk  1 in-CNO   22 renumbered as CNO   14
   3    5   28-FEB-2009  03:37:47     AIPS      ' '
   3    5   28-FEB-2009  03:37:47     AIPS      'ESTIMATED RMS:'     '0.04327 MILLI JANSKY'
   3    3   28-FEB-2009  03:37:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:37:47     AIPS      rm -f /tmp/SETFC@1831-126_LBAND1.0-1 >& /dev/null
   3    2   28-FEB-2009  03:37:47     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:37:47     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:37:47     SETFC     Found 1831-126    .LBAND1.00001 Disk  1 slot     4
   3    4   28-FEB-2009  03:37:47     SETFC     SETCEL: max baseline, W = 1.0693E+05 8.3034E+04 wavelengths
   3    4   28-FEB-2009  03:37:47     SETFC     SETCEL: max field radius 4.1327E+02 arc seconds
   3    4   28-FEB-2009  03:37:47     SETFC     SETCEL: recommends IMSIZE  1285 CELLSIZE   0.642983
   3    4   28-FEB-2009  03:37:47     SETFC     SETCEL: returns    IMSIZE  2048 CELLSIZE   0.407567
   3    2   28-FEB-2009  03:37:47     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:37:47     SETFC     ZTXOP2: /tmp/SETFC@1831-126_LBAND1.0-1
   3    4   28-FEB-2009  03:37:47     SETFC     FLYEYE added   7 fields to BOXFILE to  0.197 deg
   3    7   28-FEB-2009  03:37:47     SETFC     WARNING: THIS MAY NOT COVER THE DESIRED AREA
   3    4   28-FEB-2009  03:37:47     SETFC     First field number written was   1
   3    4   28-FEB-2009  03:37:47     SETFC     Highest field number written was   7
   3    2   28-FEB-2009  03:37:47     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:37:47     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:37:47     SETFC     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  03:37:47     AIPS      Resumes
   3    3   28-FEB-2009  03:37:47     AIPS      SETFC    was not found to be running
   3    5   28-FEB-2009  03:37:47     AIPS      'SEARCHING FOR NVSS SOURCES'
   3    2   28-FEB-2009  03:37:47     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:37:47     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:37:47     SETFC     Found 1831-126    .LBAND1.00001 Disk  1 slot     4
   3    2   28-FEB-2009  03:37:47     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:37:47     SETFC     ZTXOP2: /tmp/SETFC@1831-126_LBAND1.0-1
   3    3   28-FEB-2009  03:37:47     SETFC     Searching catalog between  0.20 and   0.77 degrees radius
   3    2   28-FEB-2009  03:37:47     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:37:47     SETFC     ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030
   3    3   28-FEB-2009  03:37:49     SETFC     No NVSS sources selected for BOXFILE
   3    3   28-FEB-2009  03:37:49     SETFC     The Sun is 162.4 deg away - ignoring
   3    4   28-FEB-2009  03:37:49     SETFC     First field number written was   8
   3    4   28-FEB-2009  03:37:49     SETFC     Highest field number written was   7
   3    2   28-FEB-2009  03:37:49     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:37:49     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:37:49     SETFC     vlbacald-b   31DEC07 TST: Cpu=       1.2  Real=       2
   3    2   28-FEB-2009  03:37:49     AIPS      Resumes
   3    3   28-FEB-2009  03:37:49     AIPS      SETFC    was not found to be running
   3    3   28-FEB-2009  03:37:49     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:37:49     AIPS      echo "SETFC FILE FOR SOURCE 1831-126 BELOW IS:" >> $ARUN/AM0308_
   3    3   28-FEB-2009  03:37:49     AIPS      1990JUL15_1.1.log
   3    3   28-FEB-2009  03:37:49     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:37:49     AIPS      cat /tmp/SETFC@1831-126_LBAND1.0-1 >> $ARUN/AM0308_1990JUL15_1.1
   3    3   28-FEB-2009  03:37:49     AIPS      .log
   3    5   28-FEB-2009  03:37:49     AIPS      '    NOW STARTING WITH SOURCE  :2  =1831-126'
   3    5   28-FEB-2009  03:37:49     AIPS      ' '
   3    5   28-FEB-2009  03:37:49     IMAGR     Task IMAGR  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:37:49     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:37:49     IMAGR     ZTXOP2: /tmp/SETFC@1831-126_LBAND1.0-1
   3    3   28-FEB-2009  03:37:49     IMAGR     FIELDF: Final field parameters and # read are:
   3    3   28-FEB-2009  03:37:49     IMAGR     Field    1 2036 2036  5.1925E-02  4.4837E-02          0
   3    3   28-FEB-2009  03:37:49     IMAGR     Field    2 2036 2036  5.1925E-02 -7.0836E+02          0
   3    3   28-FEB-2009  03:37:49     IMAGR     Field    3 2036 2036 -6.1368E+02 -3.5396E+02          0
   3    3   28-FEB-2009  03:37:49     IMAGR     Field    4 2036 2036  6.1379E+02 -3.5396E+02          0
   3    3   28-FEB-2009  03:37:49     IMAGR     Field    5 2036 2036 -6.1324E+02  3.5444E+02          0
   3    3   28-FEB-2009  03:37:49     IMAGR     Field    6 2036 2036  6.1320E+02  3.5444E+02          0
   3    3   28-FEB-2009  03:37:49     IMAGR     Field    7 2036 2036  5.1925E-02  7.0844E+02          0
   3    2   28-FEB-2009  03:37:49     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:37:49     IMAGR     ZTXOP2: /tmp/SETFC@1831-126_LBAND1.0-1
   3    7   28-FEB-2009  03:37:49     IMAGR     WINDF: Number of clean boxes/field read as follows:
   3    3   28-FEB-2009  03:37:49     IMAGR     Field 01:   1  Field 02:   1  Field 03:   1  Field 04:   1
   3    3   28-FEB-2009  03:37:49     IMAGR     Field 05:   1  Field 06:   1  Field 07:   1
   3    2   28-FEB-2009  03:37:49     IMAGR     Create 1831-126    .IMAGR .   1 (UV)  on disk  1  cno   15
   3    4   28-FEB-2009  03:37:49     IMAGR     Beginning channel    1 through    1 with  2 IFs
   3    3   28-FEB-2009  03:37:49     IMAGR     IMACPY: Copied    39190 visibilities to be imaged
   3    2   28-FEB-2009  03:37:49     IMAGR     QINIT: did a GET  of   20480 Kwords, OFF        -91712845
   3    2   28-FEB-2009  03:37:49     IMAGR     UVWAIT: begin finding uniform weights
   3    2   28-FEB-2009  03:37:49     IMAGR     UVWAIT: Average grid weight  1.573E+04
   3    2   28-FEB-2009  03:37:49     IMAGR     UVWAIT: Adding temperance S  3.146E+03
   3    2   28-FEB-2009  03:37:49     IMAGR     UVWAIT: begin applying uniform or other weights
   3    4   28-FEB-2009  03:37:49     IMAGR     UVWAIT: Sum of weights in  5.716E+07 and out  9.384E+07
   3    4   28-FEB-2009  03:37:49     IMAGR     UVWAIT: Noise is increased by a factor 1.143 due to weighting
   3    4   28-FEB-2009  03:37:49     IMAGR     UVWAIT: Average summed weight  1.573E+04 over      78380 vis
   3    2   28-FEB-2009  03:37:49     IMAGR     Create 1831-126    .IBM001.   1 (MA)  on disk  1  cno   16
   3    2   28-FEB-2009  03:37:49     IMAGR     Create 1831-126    .IBM002.   1 (MA)  on disk  1  cno   17
   3    2   28-FEB-2009  03:37:49     IMAGR     Create 1831-126    .IBM003.   1 (MA)  on disk  1  cno   18
   3    2   28-FEB-2009  03:37:49     IMAGR     Create 1831-126    .IBM004.   1 (MA)  on disk  1  cno   19
   3    2   28-FEB-2009  03:37:49     IMAGR     Create 1831-126    .IBM005.   1 (MA)  on disk  1  cno   20
   3    2   28-FEB-2009  03:37:49     IMAGR     Create 1831-126    .IBM006.   1 (MA)  on disk  1  cno   21
   3    2   28-FEB-2009  03:37:49     IMAGR     Create 1831-126    .IBM007.   1 (MA)  on disk  1  cno   22
   3    2   28-FEB-2009  03:37:50     IMAGR     Create 1831-126    .ICL001.   1 (MA)  on disk  1  cno   23
   3    2   28-FEB-2009  03:37:50     IMAGR     Create 1831-126    .ICL002.   1 (MA)  on disk  1  cno   24
   3    2   28-FEB-2009  03:37:50     IMAGR     Create 1831-126    .ICL003.   1 (MA)  on disk  1  cno   25
   3    2   28-FEB-2009  03:37:50     IMAGR     Create 1831-126    .ICL004.   1 (MA)  on disk  1  cno   26
   3    2   28-FEB-2009  03:37:50     IMAGR     Create 1831-126    .ICL005.   1 (MA)  on disk  1  cno   27
   3    2   28-FEB-2009  03:37:50     IMAGR     Create 1831-126    .ICL006.   1 (MA)  on disk  1  cno   28
   3    2   28-FEB-2009  03:37:50     IMAGR     Create 1831-126    .ICL007.   1 (MA)  on disk  1  cno   29
   3    2   28-FEB-2009  03:37:50     IMAGR     GRDFLT: X and Y convolution type = SPHEROIDAL
   3    2   28-FEB-2009  03:37:50     IMAGR     GRDFLT: X and Y parms =  3.0000  1.0000
   3    2   28-FEB-2009  03:37:50     IMAGR     GRDFLT: convolution function sampled every 1/100 of a cell
   3    2   28-FEB-2009  03:37:50     IMAGR     GRDMEM: Ave    2 Channels; 1.464900E+09 to 1.514900E+09 Hz
   3    4   28-FEB-2009  03:37:51     IMAGR     Field   1 Sum of gridding weights =  9.96256E+08
   3    4   28-FEB-2009  03:38:00     IMAGR     Field   1 Beam min =  -94.9 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:38:00     IMAGR     Field   1 fit FWHM =    4.163 x    2.861      arcsec, PA=  -77.0
   3    4   28-FEB-2009  03:38:00     IMAGR     Field   2 Sum of gridding weights =  9.96259E+08
   3    4   28-FEB-2009  03:38:01     IMAGR     Field   2 Beam min =  -94.9 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:38:01     IMAGR     Field   2 fit FWHM =    4.159 x    2.868      arcsec, PA=  -76.8
   3    4   28-FEB-2009  03:38:01     IMAGR     Field   3 Sum of gridding weights =  9.96263E+08
   3    4   28-FEB-2009  03:38:01     IMAGR     Field   3 Beam min =  -95.4 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:38:01     IMAGR     Field   3 fit FWHM =    4.160 x    2.865      arcsec, PA=  -77.0
   3    4   28-FEB-2009  03:38:02     IMAGR     Field   4 Sum of gridding weights =  9.96261E+08
   3    4   28-FEB-2009  03:38:03     IMAGR     Field   4 Beam min =  -94.5 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:38:03     IMAGR     Field   4 fit FWHM =    4.162 x    2.864      arcsec, PA=  -76.8
   3    4   28-FEB-2009  03:38:03     IMAGR     Field   5 Sum of gridding weights =  9.96264E+08
   3    4   28-FEB-2009  03:38:04     IMAGR     Field   5 Beam min =  -95.3 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:38:04     IMAGR     Field   5 fit FWHM =    4.164 x    2.858      arcsec, PA=  -77.1
   3    4   28-FEB-2009  03:38:04     IMAGR     Field   6 Sum of gridding weights =  9.96265E+08
   3    4   28-FEB-2009  03:38:06     IMAGR     Field   6 Beam min =  -94.5 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:38:06     IMAGR     Field   6 fit FWHM =    4.166 x    2.857      arcsec, PA=  -77.0
   3    4   28-FEB-2009  03:38:07     IMAGR     Field   7 Sum of gridding weights =  9.96259E+08
   3    4   28-FEB-2009  03:38:07     IMAGR     Field   7 Beam min =  -94.9 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:38:07     IMAGR     Field   7 fit FWHM =    4.167 x    2.854      arcsec, PA=  -77.1
   3    4   28-FEB-2009  03:38:07     IMAGR     CLBHIS: minimum component 0.500 of current peak
   3    4   28-FEB-2009  03:38:11     IMAGR     Field   1 min =  -49.6 MilliJy,max =  519.7 MilliJy
   3    4   28-FEB-2009  03:38:11     IMAGR     Field   2 min =  -18.4 MilliJy,max =   30.3 MilliJy
   3    4   28-FEB-2009  03:38:12     IMAGR     Field   3 min =  -27.0 MilliJy,max =   24.4 MilliJy
   3    4   28-FEB-2009  03:38:13     IMAGR     Field   4 min =  -24.3 MilliJy,max =   23.7 MilliJy
   3    4   28-FEB-2009  03:38:17     IMAGR     Field   5 min =  -26.9 MilliJy,max =   23.2 MilliJy
   3    4   28-FEB-2009  03:38:17     IMAGR     Field   6 min =  -24.4 MilliJy,max =   24.2 MilliJy
   3    4   28-FEB-2009  03:38:18     IMAGR     Field   7 min =  -19.4 MilliJy,max =   27.4 MilliJy
   3    2   28-FEB-2009  03:38:19     IMAGR     BGC Clean: using 2019 cell beam + residuals >    16.58 MilliJy
   3    2   28-FEB-2009  03:38:19     IMAGR        11682 Residual map points loaded
   3    4   28-FEB-2009  03:38:19     IMAGR     Field    1 min allowed flux  =  248.579 MilliJy iter=        8
   3    3   28-FEB-2009  03:38:19     IMAGR     Field    1 Clean flux density=  295.995 MilliJy        8 comps
   3    3   28-FEB-2009  03:38:19     IMAGR     Total Cleaned flux density     =  295.995 MilliJy        8 comps
   3    4   28-FEB-2009  03:38:19     IMAGR     SETDO3: imaging done with multiple tangent planes
   3    2   28-FEB-2009  03:38:19     IMAGR     VISDFT: Begin DFT component subtraction
   3    2   28-FEB-2009  03:38:19     IMAGR     VISDFT: Model components of type Point
   3    3   28-FEB-2009  03:38:19     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:38:28     IMAGR     Field   1 min =  -21.5 MilliJy,max =  223.7 MilliJy
   3    2   28-FEB-2009  03:38:29     IMAGR     BGC Clean: using  289 cell beam + residuals >    14.70 MilliJy
   3    2   28-FEB-2009  03:38:29     IMAGR         2045 Residual map points loaded
   3    4   28-FEB-2009  03:38:29     IMAGR     Field    1 min allowed flux  =  107.893 MilliJy iter=       16
   3    3   28-FEB-2009  03:38:29     IMAGR     Field    1 Clean flux density=  423.564 MilliJy       16 comps
   3    3   28-FEB-2009  03:38:29     IMAGR     Total Cleaned flux density     =  423.564 MilliJy       16 comps
   3    2   28-FEB-2009  03:38:29     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:38:29     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:38:30     IMAGR     Field   1 min =  -10.1 MilliJy,max =   98.1 MilliJy
   3    2   28-FEB-2009  03:38:32     IMAGR     BGC Clean: using  103 cell beam + residuals >    14.49 MilliJy
   3    2   28-FEB-2009  03:38:34     IMAGR          401 Residual map points loaded
   3    4   28-FEB-2009  03:38:36     IMAGR     Field    1 min allowed flux  =   44.469 MilliJy iter=       25
   3    3   28-FEB-2009  03:38:36     IMAGR     Field    1 Clean flux density=  484.903 MilliJy       25 comps
   3    3   28-FEB-2009  03:38:36     IMAGR     Total Cleaned flux density     =  484.903 MilliJy       25 comps
   3    2   28-FEB-2009  03:38:37     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:38:37     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:38:45     IMAGR     Field   1 min =   -5.0 MilliJy,max =   40.3 MilliJy
   3    2   28-FEB-2009  03:38:45     IMAGR     BGC Clean: using  103 cell beam + residuals >    14.46 MilliJy
   3    2   28-FEB-2009  03:38:45     IMAGR           79 Residual map points loaded
   3    4   28-FEB-2009  03:38:45     IMAGR     Field    1 min algorithm flux=   18.306 MilliJy iter=       34
   3    3   28-FEB-2009  03:38:45     IMAGR     Field    1 Clean flux density=  510.142 MilliJy       34 comps
   3    3   28-FEB-2009  03:38:45     IMAGR     Total Cleaned flux density     =  510.142 MilliJy       34 comps
   3    2   28-FEB-2009  03:38:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:38:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:38:46     IMAGR     Field   2 min =   -1.0 MilliJy,max =    1.4 MilliJy
   3    3   28-FEB-2009  03:38:46     IMAGR     TRY ANOTHER FIELD: this is  1.339E-03 < Second best  2.622E-02
   3    4   28-FEB-2009  03:38:47     IMAGR     Field   7 min =   -1.2 MilliJy,max =    1.3 MilliJy
   3    3   28-FEB-2009  03:38:47     IMAGR     TRY ANOTHER FIELD: this is  1.246E-03 < Second best  2.331E-02
   3    4   28-FEB-2009  03:38:48     IMAGR     Field   3 min =   -1.2 MilliJy,max =    1.5 MilliJy
   3    3   28-FEB-2009  03:38:48     IMAGR     TRY ANOTHER FIELD: this is  1.049E-03 < Second best  2.315E-02
   3    4   28-FEB-2009  03:38:48     IMAGR     Field   6 min =   -1.1 MilliJy,max =    1.1 MilliJy
   3    3   28-FEB-2009  03:38:48     IMAGR     TRY ANOTHER FIELD: this is  1.008E-03 < Second best  2.264E-02
   3    4   28-FEB-2009  03:38:49     IMAGR     Field   4 min =   -1.1 MilliJy,max =    1.2 MilliJy
   3    3   28-FEB-2009  03:38:49     IMAGR     TRY ANOTHER FIELD: this is  1.135E-03 < Second best  2.201E-02
   3    4   28-FEB-2009  03:38:50     IMAGR     Field   5 min =   -1.2 MilliJy,max =    1.5 MilliJy
   3    3   28-FEB-2009  03:38:50     IMAGR     TRY ANOTHER FIELD: this is  1.167E-03 < Second best  1.740E-02
   3    4   28-FEB-2009  03:38:54     IMAGR     Field   1 min =   -3.4 MilliJy,max =   16.6 MilliJy
   3    2   28-FEB-2009  03:38:54     IMAGR     BGC Clean: using 2003 cell beam + residuals >   837.47 MicroJy
   3    2   28-FEB-2009  03:38:54     IMAGR         6106 Residual map points loaded
   3    4   28-FEB-2009  03:38:54     IMAGR     Field    1 min allowed flux  =    7.555 MilliJy iter=       43
   3    3   28-FEB-2009  03:38:54     IMAGR     Field    1 Clean flux density=  520.544 MilliJy       43 comps
   3    3   28-FEB-2009  03:38:54     IMAGR     Total Cleaned flux density     =  520.544 MilliJy       43 comps
   3    2   28-FEB-2009  03:38:54     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:38:54     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:38:55     IMAGR     Field   1 min =   -3.9 MilliJy,max =    6.8 MilliJy
   3    2   28-FEB-2009  03:38:56     IMAGR     BGC Clean: using  167 cell beam + residuals >   756.54 MicroJy
   3    2   28-FEB-2009  03:38:56     IMAGR         2247 Residual map points loaded
   3    4   28-FEB-2009  03:38:56     IMAGR     Field    1 min allowed flux  =    3.245 MilliJy iter=       61
   3    3   28-FEB-2009  03:38:56     IMAGR     Field    1 Clean flux density=  522.921 MilliJy       61 comps
   3    3   28-FEB-2009  03:38:56     IMAGR     Total Cleaned flux density     =  522.921 MilliJy       61 comps
   3    2   28-FEB-2009  03:38:56     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:38:56     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:03     IMAGR     Field   1 min =   -3.3 MilliJy,max =    2.9 MilliJy
   3    2   28-FEB-2009  03:39:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   718.47 MicroJy
   3    2   28-FEB-2009  03:39:04     IMAGR         1420 Residual map points loaded
   3    4   28-FEB-2009  03:39:04     IMAGR     Field    1 min allowed flux  =    1.620 MilliJy iter=      101
   3    3   28-FEB-2009  03:39:04     IMAGR     Field    1 Clean flux density=  523.603 MilliJy      101 comps
   3    3   28-FEB-2009  03:39:04     IMAGR     Total Cleaned flux density     =  523.603 MilliJy      101 comps
   3    2   28-FEB-2009  03:39:04     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:04     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:10     IMAGR     Field   1 min =   -1.6 MilliJy,max =    1.6 MilliJy
   3    2   28-FEB-2009  03:39:10     IMAGR     BGC Clean: using  103 cell beam + residuals >   714.82 MicroJy
   3    2   28-FEB-2009  03:39:10     IMAGR          605 Residual map points loaded
   3    4   28-FEB-2009  03:39:11     IMAGR     Field    1 min algorithm flux=  985.041 MicroJy iter=      146
   3    3   28-FEB-2009  03:39:12     IMAGR     Field    1 Clean flux density=  524.967 MilliJy      146 comps
   3    3   28-FEB-2009  03:39:15     IMAGR     Total Cleaned flux density     =  524.967 MilliJy      146 comps
   3    2   28-FEB-2009  03:39:15     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:15     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:16     IMAGR     Field   2 min = -756.2 MicroJy,max =  885.8 MicroJy
   3    3   28-FEB-2009  03:39:16     IMAGR     TRY ANOTHER FIELD: this is  7.244E-04 < Second best  1.246E-03
   3    4   28-FEB-2009  03:39:17     IMAGR     Field   7 min = -838.7 MicroJy,max =  794.6 MicroJy
   3    3   28-FEB-2009  03:39:17     IMAGR     TRY ANOTHER FIELD: this is  7.728E-04 < Second best  1.167E-03
   3    4   28-FEB-2009  03:39:18     IMAGR     Field   5 min = -706.7 MicroJy,max =  993.8 MicroJy
   3    3   28-FEB-2009  03:39:18     IMAGR     TRY ANOTHER FIELD: this is  6.704E-04 < Second best  1.135E-03
   3    4   28-FEB-2009  03:39:19     IMAGR     Field   4 min = -716.8 MicroJy,max =  786.2 MicroJy
   3    3   28-FEB-2009  03:39:19     IMAGR     TRY ANOTHER FIELD: this is  7.525E-04 < Second best  1.049E-03
   3    4   28-FEB-2009  03:39:19     IMAGR     Field   3 min = -846.1 MicroJy,max =  970.5 MicroJy
   3    3   28-FEB-2009  03:39:22     IMAGR     TRY ANOTHER FIELD: this is  7.165E-04 < Second best  1.008E-03
   3    4   28-FEB-2009  03:39:23     IMAGR     Field   6 min = -705.2 MicroJy,max =  774.6 MicroJy
   3    3   28-FEB-2009  03:39:23     IMAGR     TRY ANOTHER FIELD: this is  7.127E-04 < Second best  9.395E-04
   3    4   28-FEB-2009  03:39:23     IMAGR     Field   1 min = -972.7 MicroJy,max =    1.1 MilliJy
   3    2   28-FEB-2009  03:39:24     IMAGR     BGC Clean: using  103 cell beam + residuals >   493.66 MicroJy
   3    2   28-FEB-2009  03:39:24     IMAGR         4865 Residual map points loaded
   3    4   28-FEB-2009  03:39:24     IMAGR     Field    1 min algorithm flux= -687.870 MicroJy iter=      215
   3    3   28-FEB-2009  03:39:24     IMAGR     Field    1 Clean flux density=  526.378 MilliJy      215 comps
   3    3   28-FEB-2009  03:39:26     IMAGR     Total Cleaned flux density     =  526.378 MilliJy      215 comps
   3    2   28-FEB-2009  03:39:26     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:26     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:27     IMAGR     Field   7 min = -834.0 MicroJy,max =  761.3 MicroJy
   3    2   28-FEB-2009  03:39:30     IMAGR     BGC Clean: using  103 cell beam + residuals >   492.15 MicroJy
   3    2   28-FEB-2009  03:39:30     IMAGR         4076 Residual map points loaded
   3    4   28-FEB-2009  03:39:30     IMAGR     Field    7 min algorithm flux=  626.917 MicroJy iter=       67
   3    3   28-FEB-2009  03:39:30     IMAGR     Field    7 Clean flux density=  722.638 MicroJy       67 comps
   3    3   28-FEB-2009  03:39:30     IMAGR     Total Cleaned flux density     =  527.101 MilliJy      282 comps
   3    2   28-FEB-2009  03:39:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:31     IMAGR     Field   4 min = -705.3 MicroJy,max =  775.2 MicroJy
   3    2   28-FEB-2009  03:39:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   491.43 MicroJy
   3    2   28-FEB-2009  03:39:34     IMAGR         1723 Residual map points loaded
   3    4   28-FEB-2009  03:39:34     IMAGR     Field    4 min algorithm flux=  576.772 MicroJy iter=       52
   3    3   28-FEB-2009  03:39:34     IMAGR     Field    4 Clean flux density=    1.276 MilliJy       52 comps
   3    3   28-FEB-2009  03:39:34     IMAGR     Total Cleaned flux density     =  528.376 MilliJy      334 comps
   3    2   28-FEB-2009  03:39:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:35     IMAGR     Field   2 min = -739.0 MicroJy,max =  838.6 MicroJy
   3    2   28-FEB-2009  03:39:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   489.39 MicroJy
   3    2   28-FEB-2009  03:39:37     IMAGR         3019 Residual map points loaded
   3    4   28-FEB-2009  03:39:37     IMAGR     Field    2 min algorithm flux=  591.654 MicroJy iter=       75
   3    3   28-FEB-2009  03:39:37     IMAGR     Field    2 Clean flux density=  699.620 MicroJy       75 comps
   3    3   28-FEB-2009  03:39:37     IMAGR     Total Cleaned flux density     =  529.076 MilliJy      409 comps
   3    2   28-FEB-2009  03:39:38     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:38     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:39     IMAGR     Field   3 min = -831.1 MicroJy,max =  772.9 MicroJy
   3    3   28-FEB-2009  03:39:39     IMAGR     TRY ANOTHER FIELD: this is  6.568E-04 < Second best  7.127E-04
   3    4   28-FEB-2009  03:39:40     IMAGR     Field   6 min = -655.4 MicroJy,max =  755.4 MicroJy
   3    2   28-FEB-2009  03:39:41     IMAGR     BGC Clean: using  103 cell beam + residuals >   486.93 MicroJy
   3    2   28-FEB-2009  03:39:41     IMAGR         1615 Residual map points loaded
   3    4   28-FEB-2009  03:39:41     IMAGR     Field    6 min algorithm flux= -563.542 MicroJy iter=       70
   3    3   28-FEB-2009  03:39:41     IMAGR     Field    6 Clean flux density=  387.803 MicroJy       70 comps
   3    3   28-FEB-2009  03:39:41     IMAGR     Total Cleaned flux density     =  529.464 MilliJy      479 comps
   3    2   28-FEB-2009  03:39:41     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:41     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:44     IMAGR     Field   5 min = -689.0 MicroJy,max =  728.9 MicroJy
   3    2   28-FEB-2009  03:39:45     IMAGR     BGC Clean: using  103 cell beam + residuals >   485.73 MicroJy
   3    2   28-FEB-2009  03:39:45     IMAGR         1377 Residual map points loaded
   3    4   28-FEB-2009  03:39:45     IMAGR     Field    5 min algorithm flux=  557.229 MicroJy iter=       76
   3    3   28-FEB-2009  03:39:45     IMAGR     Field    5 Clean flux density=   75.666 MicroJy       76 comps
   3    3   28-FEB-2009  03:39:45     IMAGR     Total Cleaned flux density     =  529.539 MilliJy      555 comps
   3    2   28-FEB-2009  03:39:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:47     IMAGR     Field   1 min = -723.0 MicroJy,max =  999.3 MicroJy
   3    2   28-FEB-2009  03:39:49     IMAGR     BGC Clean: using  103 cell beam + residuals >   479.34 MicroJy
   3    2   28-FEB-2009  03:39:50     IMAGR         3290 Residual map points loaded
   3    4   28-FEB-2009  03:39:50     IMAGR     Field    1 min algorithm flux= -565.680 MicroJy iter=      323
   3    3   28-FEB-2009  03:39:50     IMAGR     Field    1 Clean flux density=  527.559 MilliJy      323 comps
   3    3   28-FEB-2009  03:39:50     IMAGR     Total Cleaned flux density     =  530.721 MilliJy      663 comps
   3    2   28-FEB-2009  03:39:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:53     IMAGR     Field   3 min = -819.1 MicroJy,max =  768.2 MicroJy
   3    2   28-FEB-2009  03:39:56     IMAGR     BGC Clean: using  103 cell beam + residuals >   478.36 MicroJy
   3    2   28-FEB-2009  03:39:56     IMAGR         1235 Residual map points loaded
   3    4   28-FEB-2009  03:39:56     IMAGR     Field    3 min algorithm flux=  538.883 MicroJy iter=       89
   3    3   28-FEB-2009  03:39:56     IMAGR     Field    3 Clean flux density=    1.325 MilliJy       89 comps
   3    3   28-FEB-2009  03:39:56     IMAGR     Total Cleaned flux density     =  532.046 MilliJy      752 comps
   3    2   28-FEB-2009  03:39:57     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:39:57     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:39:59     IMAGR     Field   7 min = -773.2 MicroJy,max =  750.9 MicroJy
   3    2   28-FEB-2009  03:40:00     IMAGR     BGC Clean: using  103 cell beam + residuals >   471.85 MicroJy
   3    2   28-FEB-2009  03:40:00     IMAGR         3022 Residual map points loaded
   3    4   28-FEB-2009  03:40:00     IMAGR     Field    7 min algorithm flux= -545.718 MicroJy iter=      194
   3    3   28-FEB-2009  03:40:00     IMAGR     Field    7 Clean flux density=    1.801 MilliJy      194 comps
   3    3   28-FEB-2009  03:40:00     IMAGR     Total Cleaned flux density     =  533.125 MilliJy      879 comps
   3    2   28-FEB-2009  03:40:02     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:02     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:04     IMAGR     Field   2 min = -689.5 MicroJy,max =  790.7 MicroJy
   3    2   28-FEB-2009  03:40:05     IMAGR     BGC Clean: using  103 cell beam + residuals >   466.45 MicroJy
   3    2   28-FEB-2009  03:40:07     IMAGR         2395 Residual map points loaded
   3    4   28-FEB-2009  03:40:07     IMAGR     Field    2 min algorithm flux=  526.243 MicroJy iter=      194
   3    3   28-FEB-2009  03:40:07     IMAGR     Field    2 Clean flux density=    1.407 MilliJy      194 comps
   3    3   28-FEB-2009  03:40:07     IMAGR     Total Cleaned flux density     =  533.833 MilliJy      998 comps
   3    2   28-FEB-2009  03:40:08     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:08     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:10     IMAGR     Field   4 min = -668.5 MicroJy,max =  695.0 MicroJy
   3    2   28-FEB-2009  03:40:11     IMAGR     BGC Clean: using  103 cell beam + residuals >   462.92 MicroJy
   3    2   28-FEB-2009  03:40:11     IMAGR         1413 Residual map points loaded
   3    4   28-FEB-2009  03:40:11     IMAGR     Field    4 min algorithm flux=  507.498 MicroJy iter=      153
   3    3   28-FEB-2009  03:40:11     IMAGR     Field    4 Clean flux density=    2.667 MilliJy      153 comps
   3    3   28-FEB-2009  03:40:11     IMAGR     Total Cleaned flux density     =  535.224 MilliJy     1099 comps
   3    2   28-FEB-2009  03:40:11     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:11     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:13     IMAGR     Field   1 min = -686.5 MicroJy,max =  912.7 MicroJy
   3    2   28-FEB-2009  03:40:15     IMAGR     BGC Clean: using  103 cell beam + residuals >   457.49 MicroJy
   3    2   28-FEB-2009  03:40:15     IMAGR         2351 Residual map points loaded
   3    4   28-FEB-2009  03:40:15     IMAGR     Field    1 min algorithm flux= -510.108 MicroJy iter=      456
   3    3   28-FEB-2009  03:40:15     IMAGR     Field    1 Clean flux density=  527.598 MilliJy      456 comps
   3    3   28-FEB-2009  03:40:15     IMAGR     Total Cleaned flux density     =  535.262 MilliJy     1232 comps
   3    2   28-FEB-2009  03:40:16     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:16     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:18     IMAGR     Field   6 min = -612.8 MicroJy,max =  718.8 MicroJy
   3    2   28-FEB-2009  03:40:19     IMAGR     BGC Clean: using  103 cell beam + residuals >   453.31 MicroJy
   3    2   28-FEB-2009  03:40:19     IMAGR         1432 Residual map points loaded
   3    4   28-FEB-2009  03:40:19     IMAGR     Field    6 min algorithm flux= -495.279 MicroJy iter=      190
   3    3   28-FEB-2009  03:40:19     IMAGR     Field    6 Clean flux density=    1.508 MilliJy      190 comps
   3    3   28-FEB-2009  03:40:19     IMAGR     Total Cleaned flux density     =  536.383 MilliJy     1352 comps
   3    2   28-FEB-2009  03:40:19     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:19     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:25     IMAGR     Field   5 min = -649.8 MicroJy,max =  691.6 MicroJy
   3    2   28-FEB-2009  03:40:27     IMAGR     BGC Clean: using  103 cell beam + residuals >   449.48 MicroJy
   3    2   28-FEB-2009  03:40:28     IMAGR         1313 Residual map points loaded
   3    4   28-FEB-2009  03:40:28     IMAGR     Field    5 min algorithm flux= -487.284 MicroJy iter=      194
   3    3   28-FEB-2009  03:40:28     IMAGR     Field    5 Clean flux density= -954.324 MicroJy      194 comps
   3    3   28-FEB-2009  03:40:28     IMAGR     Total Cleaned flux density     =  535.353 MilliJy     1470 comps
   3    2   28-FEB-2009  03:40:28     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:28     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:30     IMAGR     Field   7 min = -721.3 MicroJy,max =  738.1 MicroJy
   3    2   28-FEB-2009  03:40:32     IMAGR     BGC Clean: using  103 cell beam + residuals >   443.17 MicroJy
   3    2   28-FEB-2009  03:40:34     IMAGR         2499 Residual map points loaded
   3    4   28-FEB-2009  03:40:34     IMAGR     Field    7 min algorithm flux= -489.433 MicroJy iter=      354
   3    3   28-FEB-2009  03:40:34     IMAGR     Field    7 Clean flux density=    2.693 MilliJy      354 comps
   3    3   28-FEB-2009  03:40:34     IMAGR     Total Cleaned flux density     =  536.244 MilliJy     1630 comps
   3    2   28-FEB-2009  03:40:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:40     IMAGR     Field   3 min = -764.7 MicroJy,max =  726.1 MicroJy
   3    2   28-FEB-2009  03:40:40     IMAGR     BGC Clean: using  103 cell beam + residuals >   439.23 MicroJy
   3    2   28-FEB-2009  03:40:40     IMAGR         1210 Residual map points loaded
   3    4   28-FEB-2009  03:40:40     IMAGR     Field    3 min algorithm flux=  472.776 MicroJy iter=      217
   3    3   28-FEB-2009  03:40:40     IMAGR     Field    3 Clean flux density=    1.618 MilliJy      217 comps
   3    3   28-FEB-2009  03:40:40     IMAGR     Total Cleaned flux density     =  536.537 MilliJy     1758 comps
   3    2   28-FEB-2009  03:40:40     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:40     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:45     IMAGR     Field   2 min = -650.7 MicroJy,max =  726.5 MicroJy
   3    2   28-FEB-2009  03:40:45     IMAGR     BGC Clean: using  103 cell beam + residuals >   433.33 MicroJy
   3    2   28-FEB-2009  03:40:45     IMAGR         2002 Residual map points loaded
   3    4   28-FEB-2009  03:40:45     IMAGR     Field    2 min algorithm flux= -470.098 MicroJy iter=      348
   3    3   28-FEB-2009  03:40:45     IMAGR     Field    2 Clean flux density=    2.073 MilliJy      348 comps
   3    3   28-FEB-2009  03:40:45     IMAGR     Total Cleaned flux density     =  537.202 MilliJy     1912 comps
   3    2   28-FEB-2009  03:40:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:49     IMAGR     Field   1 min = -649.3 MicroJy,max =  855.6 MicroJy
   3    2   28-FEB-2009  03:40:50     IMAGR     BGC Clean: using  103 cell beam + residuals >   427.77 MicroJy
   3    2   28-FEB-2009  03:40:50     IMAGR         1772 Residual map points loaded
   3    4   28-FEB-2009  03:40:50     IMAGR     Field    1 min algorithm flux=  458.585 MicroJy iter=      598
   3    3   28-FEB-2009  03:40:50     IMAGR     Field    1 Clean flux density=  527.408 MilliJy      598 comps
   3    3   28-FEB-2009  03:40:50     IMAGR     Total Cleaned flux density     =  537.013 MilliJy     2054 comps
   3    2   28-FEB-2009  03:40:50     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:50     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:54     IMAGR     Field   4 min = -645.9 MicroJy,max =  659.0 MicroJy
   3    2   28-FEB-2009  03:40:55     IMAGR     BGC Clean: using  103 cell beam + residuals >   423.22 MicroJy
   3    2   28-FEB-2009  03:40:55     IMAGR         1451 Residual map points loaded
   3    4   28-FEB-2009  03:40:55     IMAGR     Field    4 min algorithm flux= -453.100 MicroJy iter=      301
   3    3   28-FEB-2009  03:40:55     IMAGR     Field    4 Clean flux density=    2.755 MilliJy      301 comps
   3    3   28-FEB-2009  03:40:55     IMAGR     Total Cleaned flux density     =  537.100 MilliJy     2202 comps
   3    2   28-FEB-2009  03:40:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:40:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:40:57     IMAGR     Field   6 min = -587.5 MicroJy,max =  663.5 MicroJy
   3    2   28-FEB-2009  03:40:59     IMAGR     BGC Clean: using  103 cell beam + residuals >   419.17 MicroJy
   3    2   28-FEB-2009  03:40:59     IMAGR         1274 Residual map points loaded
   3    4   28-FEB-2009  03:40:59     IMAGR     Field    6 min algorithm flux=  446.512 MicroJy iter=      337
   3    3   28-FEB-2009  03:40:59     IMAGR     Field    6 Clean flux density=    2.017 MilliJy      337 comps
   3    3   28-FEB-2009  03:40:59     IMAGR     Total Cleaned flux density     =  537.609 MilliJy     2349 comps
   3    2   28-FEB-2009  03:41:01     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:01     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:04     IMAGR     Field   7 min = -688.0 MicroJy,max =  679.5 MicroJy
   3    2   28-FEB-2009  03:41:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   413.51 MicroJy
   3    2   28-FEB-2009  03:41:04     IMAGR         2019 Residual map points loaded
   3    4   28-FEB-2009  03:41:04     IMAGR     Field    7 min algorithm flux= -442.935 MicroJy iter=      525
   3    3   28-FEB-2009  03:41:04     IMAGR     Field    7 Clean flux density=    3.375 MilliJy      525 comps
   3    3   28-FEB-2009  03:41:04     IMAGR     Total Cleaned flux density     =  538.291 MilliJy     2520 comps
   3    2   28-FEB-2009  03:41:05     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:05     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:08     IMAGR     Field   5 min = -623.0 MicroJy,max =  644.2 MicroJy
   3    2   28-FEB-2009  03:41:08     IMAGR     BGC Clean: using  103 cell beam + residuals >   409.46 MicroJy
   3    2   28-FEB-2009  03:41:08     IMAGR         1503 Residual map points loaded
   3    4   28-FEB-2009  03:41:08     IMAGR     Field    5 min algorithm flux= -435.894 MicroJy iter=      360
   3    3   28-FEB-2009  03:41:08     IMAGR     Field    5 Clean flux density=   -1.396 MilliJy      360 comps
   3    3   28-FEB-2009  03:41:08     IMAGR     Total Cleaned flux density     =  537.850 MilliJy     2686 comps
   3    2   28-FEB-2009  03:41:08     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:08     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:12     IMAGR     Field   3 min = -715.1 MicroJy,max =  691.2 MicroJy
   3    2   28-FEB-2009  03:41:13     IMAGR     BGC Clean: using  103 cell beam + residuals >   405.81 MicroJy
   3    2   28-FEB-2009  03:41:13     IMAGR         1236 Residual map points loaded
   3    4   28-FEB-2009  03:41:13     IMAGR     Field    3 min algorithm flux=  429.125 MicroJy iter=      374
   3    3   28-FEB-2009  03:41:13     IMAGR     Field    3 Clean flux density=    2.263 MilliJy      374 comps
   3    3   28-FEB-2009  03:41:13     IMAGR     Total Cleaned flux density     =  538.495 MilliJy     2843 comps
   3    2   28-FEB-2009  03:41:13     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:13     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:16     IMAGR     Field   2 min = -600.2 MicroJy,max =  709.0 MicroJy
   3    2   28-FEB-2009  03:41:19     IMAGR     BGC Clean: using  103 cell beam + residuals >   400.21 MicroJy
   3    2   28-FEB-2009  03:41:19     IMAGR         1700 Residual map points loaded
   3    4   28-FEB-2009  03:41:19     IMAGR     Field    2 min algorithm flux= -424.396 MicroJy iter=      522
   3    3   28-FEB-2009  03:41:19     IMAGR     Field    2 Clean flux density=    2.858 MilliJy      522 comps
   3    3   28-FEB-2009  03:41:19     IMAGR     Total Cleaned flux density     =  539.279 MilliJy     3017 comps
   3    2   28-FEB-2009  03:41:19     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:19     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:23     IMAGR     Field   1 min = -623.7 MicroJy,max =  799.8 MicroJy
   3    2   28-FEB-2009  03:41:24     IMAGR     BGC Clean: using  103 cell beam + residuals >   395.00 MicroJy
   3    2   28-FEB-2009  03:41:24     IMAGR         1394 Residual map points loaded
   3    4   28-FEB-2009  03:41:24     IMAGR     Field    1 min algorithm flux=  415.819 MicroJy iter=      759
   3    3   28-FEB-2009  03:41:24     IMAGR     Field    1 Clean flux density=  527.976 MilliJy      759 comps
   3    3   28-FEB-2009  03:41:24     IMAGR     Total Cleaned flux density     =  539.848 MilliJy     3178 comps
   3    2   28-FEB-2009  03:41:24     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:24     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:28     IMAGR     Field   4 min = -602.7 MicroJy,max =  602.6 MicroJy
   3    2   28-FEB-2009  03:41:29     IMAGR     BGC Clean: using  103 cell beam + residuals >   391.14 MicroJy
   3    2   28-FEB-2009  03:41:29     IMAGR         1385 Residual map points loaded
   3    4   28-FEB-2009  03:41:29     IMAGR     Field    4 min algorithm flux=  411.955 MicroJy iter=      472
   3    3   28-FEB-2009  03:41:29     IMAGR     Field    4 Clean flux density=    3.627 MilliJy      472 comps
   3    3   28-FEB-2009  03:41:29     IMAGR     Total Cleaned flux density     =  540.720 MilliJy     3349 comps
   3    2   28-FEB-2009  03:41:29     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:29     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:33     IMAGR     Field   6 min = -576.6 MicroJy,max =  601.1 MicroJy
   3    2   28-FEB-2009  03:41:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   387.27 MicroJy
   3    2   28-FEB-2009  03:41:34     IMAGR         1210 Residual map points loaded
   3    4   28-FEB-2009  03:41:34     IMAGR     Field    6 min algorithm flux= -406.734 MicroJy iter=      508
   3    3   28-FEB-2009  03:41:34     IMAGR     Field    6 Clean flux density=    2.886 MilliJy      508 comps
   3    3   28-FEB-2009  03:41:34     IMAGR     Total Cleaned flux density     =  541.589 MilliJy     3520 comps
   3    2   28-FEB-2009  03:41:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:38     IMAGR     Field   7 min = -655.3 MicroJy,max =  621.6 MicroJy
   3    2   28-FEB-2009  03:41:39     IMAGR     BGC Clean: using  103 cell beam + residuals >   381.68 MicroJy
   3    2   28-FEB-2009  03:41:39     IMAGR         1678 Residual map points loaded
   3    4   28-FEB-2009  03:41:39     IMAGR     Field    7 min algorithm flux=  403.070 MicroJy iter=      724
   3    3   28-FEB-2009  03:41:39     IMAGR     Field    7 Clean flux density=    3.247 MilliJy      724 comps
   3    3   28-FEB-2009  03:41:39     IMAGR     Total Cleaned flux density     =  541.461 MilliJy     3719 comps
   3    2   28-FEB-2009  03:41:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:44     IMAGR     Field   5 min = -598.5 MicroJy,max =  588.8 MicroJy
   3    2   28-FEB-2009  03:41:45     IMAGR     BGC Clean: using  103 cell beam + residuals >   377.80 MicroJy
   3    2   28-FEB-2009  03:41:45     IMAGR         1512 Residual map points loaded
   3    4   28-FEB-2009  03:41:45     IMAGR     Field    5 min algorithm flux=  397.289 MicroJy iter=      553
   3    3   28-FEB-2009  03:41:45     IMAGR     Field    5 Clean flux density=   -1.764 MilliJy      553 comps
   3    3   28-FEB-2009  03:41:45     IMAGR     Total Cleaned flux density     =  541.093 MilliJy     3912 comps
   3    2   28-FEB-2009  03:41:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:50     IMAGR     Field   3 min = -668.7 MicroJy,max =  665.5 MicroJy
   3    2   28-FEB-2009  03:41:51     IMAGR     BGC Clean: using  103 cell beam + residuals >   374.11 MicroJy
   3    2   28-FEB-2009  03:41:51     IMAGR         1259 Residual map points loaded
   3    4   28-FEB-2009  03:41:51     IMAGR     Field    3 min algorithm flux=  391.370 MicroJy iter=      555
   3    3   28-FEB-2009  03:41:51     IMAGR     Field    3 Clean flux density=    2.939 MilliJy      555 comps
   3    3   28-FEB-2009  03:41:51     IMAGR     Total Cleaned flux density     =  541.769 MilliJy     4093 comps
   3    2   28-FEB-2009  03:41:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:41:56     IMAGR     Field   2 min = -541.6 MicroJy,max =  634.4 MicroJy
   3    2   28-FEB-2009  03:41:57     IMAGR     BGC Clean: using  103 cell beam + residuals >   369.31 MicroJy
   3    2   28-FEB-2009  03:41:57     IMAGR         1394 Residual map points loaded
   3    4   28-FEB-2009  03:41:57     IMAGR     Field    2 min algorithm flux= -386.366 MicroJy iter=      711
   3    3   28-FEB-2009  03:41:57     IMAGR     Field    2 Clean flux density=    2.433 MilliJy      711 comps
   3    3   28-FEB-2009  03:41:57     IMAGR     Total Cleaned flux density     =  541.345 MilliJy     4282 comps
   3    2   28-FEB-2009  03:41:57     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:41:57     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:00     IMAGR     Field   1 min = -607.9 MicroJy,max =  736.7 MicroJy
   3    2   28-FEB-2009  03:42:01     IMAGR     BGC Clean: using  103 cell beam + residuals >   364.61 MicroJy
   3    2   28-FEB-2009  03:42:01     IMAGR          967 Residual map points loaded
   3    4   28-FEB-2009  03:42:01     IMAGR     Field    1 min algorithm flux=  377.695 MicroJy iter=      912
   3    3   28-FEB-2009  03:42:01     IMAGR     Field    1 Clean flux density=  527.869 MilliJy      912 comps
   3    3   28-FEB-2009  03:42:01     IMAGR     Total Cleaned flux density     =  541.237 MilliJy     4435 comps
   3    2   28-FEB-2009  03:42:01     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:01     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:03     IMAGR     Field   4 min = -554.7 MicroJy,max =  583.1 MicroJy
   3    2   28-FEB-2009  03:42:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   360.87 MicroJy
   3    2   28-FEB-2009  03:42:04     IMAGR         1420 Residual map points loaded
   3    4   28-FEB-2009  03:42:04     IMAGR     Field    4 min algorithm flux=  377.512 MicroJy iter=      677
   3    3   28-FEB-2009  03:42:04     IMAGR     Field    4 Clean flux density=    4.199 MilliJy      677 comps
   3    3   28-FEB-2009  03:42:04     IMAGR     Total Cleaned flux density     =  541.809 MilliJy     4640 comps
   3    2   28-FEB-2009  03:42:04     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:04     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:10     IMAGR     Field   6 min = -556.8 MicroJy,max =  563.3 MicroJy
   3    2   28-FEB-2009  03:42:10     IMAGR     BGC Clean: using  103 cell beam + residuals >   357.12 MicroJy
   3    2   28-FEB-2009  03:42:10     IMAGR         1263 Residual map points loaded
   3    4   28-FEB-2009  03:42:10     IMAGR     Field    6 min algorithm flux= -371.823 MicroJy iter=      698
   3    3   28-FEB-2009  03:42:10     IMAGR     Field    6 Clean flux density=    2.952 MilliJy      698 comps
   3    3   28-FEB-2009  03:42:10     IMAGR     Total Cleaned flux density     =  541.875 MilliJy     4830 comps
   3    2   28-FEB-2009  03:42:10     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:10     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:13     IMAGR     Field   7 min = -597.2 MicroJy,max =  581.0 MicroJy
   3    2   28-FEB-2009  03:42:14     IMAGR     BGC Clean: using  103 cell beam + residuals >   352.38 MicroJy
   3    2   28-FEB-2009  03:42:14     IMAGR         1442 Residual map points loaded
   3    4   28-FEB-2009  03:42:14     IMAGR     Field    7 min algorithm flux= -367.434 MicroJy iter=      930
   3    3   28-FEB-2009  03:42:14     IMAGR     Field    7 Clean flux density=    5.044 MilliJy      930 comps
   3    3   28-FEB-2009  03:42:14     IMAGR     Total Cleaned flux density     =  543.671 MilliJy     5036 comps
   3    2   28-FEB-2009  03:42:14     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:14     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:17     IMAGR     Field   5 min = -584.5 MicroJy,max =  556.3 MicroJy
   3    2   28-FEB-2009  03:42:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   348.66 MicroJy
   3    2   28-FEB-2009  03:42:18     IMAGR         1562 Residual map points loaded
   3    4   28-FEB-2009  03:42:18     IMAGR     Field    5 min algorithm flux= -364.412 MicroJy iter=      780
   3    3   28-FEB-2009  03:42:18     IMAGR     Field    5 Clean flux density=   -1.721 MilliJy      780 comps
   3    3   28-FEB-2009  03:42:18     IMAGR     Total Cleaned flux density     =  543.713 MilliJy     5263 comps
   3    2   28-FEB-2009  03:42:18     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:18     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:21     IMAGR     Field   3 min = -613.7 MicroJy,max =  631.1 MicroJy
   3    2   28-FEB-2009  03:42:23     IMAGR     BGC Clean: using  103 cell beam + residuals >   345.16 MicroJy
   3    2   28-FEB-2009  03:42:23     IMAGR         1334 Residual map points loaded
   3    4   28-FEB-2009  03:42:23     IMAGR     Field    3 min algorithm flux=  359.274 MicroJy iter=      769
   3    3   28-FEB-2009  03:42:23     IMAGR     Field    3 Clean flux density=    3.600 MilliJy      769 comps
   3    3   28-FEB-2009  03:42:23     IMAGR     Total Cleaned flux density     =  544.374 MilliJy     5477 comps
   3    2   28-FEB-2009  03:42:23     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:23     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:27     IMAGR     Field   2 min = -515.6 MicroJy,max =  594.2 MicroJy
   3    2   28-FEB-2009  03:42:27     IMAGR     BGC Clean: using  103 cell beam + residuals >   341.05 MicroJy
   3    2   28-FEB-2009  03:42:27     IMAGR         1154 Residual map points loaded
   3    4   28-FEB-2009  03:42:27     IMAGR     Field    2 min algorithm flux= -353.318 MicroJy iter=      907
   3    3   28-FEB-2009  03:42:27     IMAGR     Field    2 Clean flux density=    2.724 MilliJy      907 comps
   3    3   28-FEB-2009  03:42:27     IMAGR     Total Cleaned flux density     =  544.665 MilliJy     5673 comps
   3    2   28-FEB-2009  03:42:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:30     IMAGR     Field   1 min = -572.2 MicroJy,max =  649.4 MicroJy
   3    2   28-FEB-2009  03:42:31     IMAGR     BGC Clean: using  103 cell beam + residuals >   337.32 MicroJy
   3    2   28-FEB-2009  03:42:31     IMAGR          684 Residual map points loaded
   3    4   28-FEB-2009  03:42:31     IMAGR     Field    1 min algorithm flux= -345.847 MicroJy iter=     1053
   3    3   28-FEB-2009  03:42:31     IMAGR     Field    1 Clean flux density=  527.697 MilliJy     1053 comps
   3    3   28-FEB-2009  03:42:31     IMAGR     Total Cleaned flux density     =  544.494 MilliJy     5814 comps
   3    2   28-FEB-2009  03:42:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:34     IMAGR     Field   4 min = -524.1 MicroJy,max =  540.5 MicroJy
   3    2   28-FEB-2009  03:42:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   333.56 MicroJy
   3    2   28-FEB-2009  03:42:34     IMAGR         1435 Residual map points loaded
   3    4   28-FEB-2009  03:42:34     IMAGR     Field    4 min algorithm flux=  346.165 MicroJy iter=      895
   3    3   28-FEB-2009  03:42:34     IMAGR     Field    4 Clean flux density=    4.624 MilliJy      895 comps
   3    3   28-FEB-2009  03:42:34     IMAGR     Total Cleaned flux density     =  544.919 MilliJy     6032 comps
   3    2   28-FEB-2009  03:42:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:38     IMAGR     Field   6 min = -525.9 MicroJy,max =  514.5 MicroJy
   3    2   28-FEB-2009  03:42:38     IMAGR     BGC Clean: using  103 cell beam + residuals >   330.19 MicroJy
   3    2   28-FEB-2009  03:42:38     IMAGR         1342 Residual map points loaded
   3    4   28-FEB-2009  03:42:38     IMAGR     Field    6 min algorithm flux=  342.399 MicroJy iter=      920
   3    3   28-FEB-2009  03:42:38     IMAGR     Field    6 Clean flux density=    3.092 MilliJy      920 comps
   3    3   28-FEB-2009  03:42:38     IMAGR     Total Cleaned flux density     =  545.059 MilliJy     6254 comps
   3    2   28-FEB-2009  03:42:38     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:38     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:42     IMAGR     Field   7 min = -563.4 MicroJy,max =  549.4 MicroJy
   3    2   28-FEB-2009  03:42:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   326.07 MicroJy
   3    2   28-FEB-2009  03:42:42     IMAGR         1233 Residual map points loaded
   3    4   28-FEB-2009  03:42:42     IMAGR     Field    7 min algorithm flux= -337.303 MicroJy iter=     1143
   3    3   28-FEB-2009  03:42:42     IMAGR     Field    7 Clean flux density=    5.702 MilliJy     1143 comps
   3    3   28-FEB-2009  03:42:42     IMAGR     Total Cleaned flux density     =  545.717 MilliJy     6467 comps
   3    2   28-FEB-2009  03:42:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:47     IMAGR     Field   5 min = -555.2 MicroJy,max =  516.8 MicroJy
   3    2   28-FEB-2009  03:42:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   322.41 MicroJy
   3    2   28-FEB-2009  03:42:47     IMAGR         1472 Residual map points loaded
   3    4   28-FEB-2009  03:42:47     IMAGR     Field    5 min algorithm flux=  335.074 MicroJy iter=     1032
   3    3   28-FEB-2009  03:42:47     IMAGR     Field    5 Clean flux density=   -1.250 MilliJy     1032 comps
   3    3   28-FEB-2009  03:42:47     IMAGR     Total Cleaned flux density     =  546.188 MilliJy     6719 comps
   3    2   28-FEB-2009  03:42:47     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:47     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:51     IMAGR     Field   3 min = -564.8 MicroJy,max =  593.5 MicroJy
   3    2   28-FEB-2009  03:42:52     IMAGR     BGC Clean: using  103 cell beam + residuals >   318.98 MicroJy
   3    2   28-FEB-2009  03:42:52     IMAGR         1370 Residual map points loaded
   3    4   28-FEB-2009  03:42:52     IMAGR     Field    3 min algorithm flux=  330.366 MicroJy iter=     1007
   3    3   28-FEB-2009  03:42:52     IMAGR     Field    3 Clean flux density=    4.477 MilliJy     1007 comps
   3    3   28-FEB-2009  03:42:52     IMAGR     Total Cleaned flux density     =  547.064 MilliJy     6957 comps
   3    2   28-FEB-2009  03:42:52     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:52     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:55     IMAGR     Field   2 min = -495.1 MicroJy,max =  527.4 MicroJy
   3    2   28-FEB-2009  03:42:56     IMAGR     BGC Clean: using  103 cell beam + residuals >   315.37 MicroJy
   3    2   28-FEB-2009  03:42:56     IMAGR          989 Residual map points loaded
   3    4   28-FEB-2009  03:42:56     IMAGR     Field    2 min algorithm flux=  324.560 MicroJy iter=     1108
   3    3   28-FEB-2009  03:42:56     IMAGR     Field    2 Clean flux density=    2.362 MilliJy     1108 comps
   3    3   28-FEB-2009  03:42:56     IMAGR     Total Cleaned flux density     =  546.702 MilliJy     7158 comps
   3    2   28-FEB-2009  03:42:56     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:42:56     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:42:59     IMAGR     Field   4 min = -517.1 MicroJy,max =  516.4 MicroJy
   3    2   28-FEB-2009  03:43:00     IMAGR     BGC Clean: using  103 cell beam + residuals >   312.41 MicroJy
   3    2   28-FEB-2009  03:43:01     IMAGR         1333 Residual map points loaded
   3    4   28-FEB-2009  03:43:01     IMAGR     Field    4 min algorithm flux= -322.910 MicroJy iter=     1134
   3    3   28-FEB-2009  03:43:01     IMAGR     Field    4 Clean flux density=    4.779 MilliJy     1134 comps
   3    3   28-FEB-2009  03:43:01     IMAGR     Total Cleaned flux density     =  546.857 MilliJy     7397 comps
   3    2   28-FEB-2009  03:43:01     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:01     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:05     IMAGR     Field   1 min = -522.2 MicroJy,max =  596.4 MicroJy
   3    2   28-FEB-2009  03:43:05     IMAGR     BGC Clean: using  103 cell beam + residuals >   309.06 MicroJy
   3    2   28-FEB-2009  03:43:05     IMAGR          664 Residual map points loaded
   3    4   28-FEB-2009  03:43:05     IMAGR     Field    1 min algorithm flux=  315.947 MicroJy iter=     1214
   3    3   28-FEB-2009  03:43:05     IMAGR     Field    1 Clean flux density=  527.929 MilliJy     1214 comps
   3    3   28-FEB-2009  03:43:05     IMAGR     Total Cleaned flux density     =  547.089 MilliJy     7558 comps
   3    2   28-FEB-2009  03:43:05     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:05     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:08     IMAGR     Field   6 min = -525.7 MicroJy,max =  478.7 MicroJy
   3    2   28-FEB-2009  03:43:09     IMAGR     BGC Clean: using  103 cell beam + residuals >   305.67 MicroJy
   3    2   28-FEB-2009  03:43:09     IMAGR         1357 Residual map points loaded
   3    4   28-FEB-2009  03:43:09     IMAGR     Field    6 min algorithm flux=  315.972 MicroJy iter=     1172
   3    3   28-FEB-2009  03:43:09     IMAGR     Field    6 Clean flux density=    3.924 MilliJy     1172 comps
   3    3   28-FEB-2009  03:43:09     IMAGR     Total Cleaned flux density     =  547.921 MilliJy     7810 comps
   3    2   28-FEB-2009  03:43:09     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:09     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:13     IMAGR     Field   7 min = -520.9 MicroJy,max =  510.8 MicroJy
   3    2   28-FEB-2009  03:43:13     IMAGR     BGC Clean: using  103 cell beam + residuals >   302.13 MicroJy
   3    2   28-FEB-2009  03:43:14     IMAGR          965 Residual map points loaded
   3    4   28-FEB-2009  03:43:14     IMAGR     Field    7 min algorithm flux=  310.143 MicroJy iter=     1346
   3    3   28-FEB-2009  03:43:14     IMAGR     Field    7 Clean flux density=    6.483 MilliJy     1346 comps
   3    3   28-FEB-2009  03:43:14     IMAGR     Total Cleaned flux density     =  548.702 MilliJy     8013 comps
   3    2   28-FEB-2009  03:43:14     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:14     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:19     IMAGR     Field   5 min = -550.9 MicroJy,max =  483.7 MicroJy
   3    2   28-FEB-2009  03:43:21     IMAGR     BGC Clean: using  103 cell beam + residuals >   298.78 MicroJy
   3    2   28-FEB-2009  03:43:21     IMAGR         1496 Residual map points loaded
   3    4   28-FEB-2009  03:43:21     IMAGR     Field    5 min algorithm flux= -308.827 MicroJy iter=     1298
   3    3   28-FEB-2009  03:43:21     IMAGR     Field    5 Clean flux density=   -1.007 MilliJy     1298 comps
   3    3   28-FEB-2009  03:43:21     IMAGR     Total Cleaned flux density     =  548.946 MilliJy     8279 comps
   3    2   28-FEB-2009  03:43:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:25     IMAGR     Field   3 min = -546.6 MicroJy,max =  559.1 MicroJy
   3    2   28-FEB-2009  03:43:25     IMAGR     BGC Clean: using  103 cell beam + residuals >   295.67 MicroJy
   3    2   28-FEB-2009  03:43:26     IMAGR         1403 Residual map points loaded
   3    4   28-FEB-2009  03:43:26     IMAGR     Field    3 min algorithm flux= -305.310 MicroJy iter=     1275
   3    3   28-FEB-2009  03:43:26     IMAGR     Field    3 Clean flux density=    5.226 MilliJy     1275 comps
   3    3   28-FEB-2009  03:43:26     IMAGR     Total Cleaned flux density     =  549.695 MilliJy     8547 comps
   3    2   28-FEB-2009  03:43:26     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:26     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:29     IMAGR     Field   2 min = -477.1 MicroJy,max =  486.7 MicroJy
   3    2   28-FEB-2009  03:43:30     IMAGR     BGC Clean: using  103 cell beam + residuals >   292.56 MicroJy
   3    2   28-FEB-2009  03:43:30     IMAGR          854 Residual map points loaded
   3    4   28-FEB-2009  03:43:30     IMAGR     Field    2 min algorithm flux= -299.433 MicroJy iter=     1306
   3    3   28-FEB-2009  03:43:30     IMAGR     Field    2 Clean flux density=    2.486 MilliJy     1306 comps
   3    3   28-FEB-2009  03:43:30     IMAGR     Total Cleaned flux density     =  549.818 MilliJy     8745 comps
   3    2   28-FEB-2009  03:43:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:33     IMAGR     Field   4 min = -488.3 MicroJy,max =  496.7 MicroJy
   3    2   28-FEB-2009  03:43:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   289.41 MicroJy
   3    2   28-FEB-2009  03:43:34     IMAGR         1593 Residual map points loaded
   3    4   28-FEB-2009  03:43:34     IMAGR     Field    4 min algorithm flux=  298.899 MicroJy iter=     1417
   3    3   28-FEB-2009  03:43:34     IMAGR     Field    4 Clean flux density=    5.357 MilliJy     1417 comps
   3    3   28-FEB-2009  03:43:34     IMAGR     Total Cleaned flux density     =  550.396 MilliJy     9028 comps
   3    2   28-FEB-2009  03:43:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:38     IMAGR     Field   6 min = -519.6 MicroJy,max =  447.3 MicroJy
   3    2   28-FEB-2009  03:43:38     IMAGR     BGC Clean: using  103 cell beam + residuals >   286.67 MicroJy
   3    2   28-FEB-2009  03:43:38     IMAGR         1171 Residual map points loaded
   3    4   28-FEB-2009  03:43:38     IMAGR     Field    6 min algorithm flux= -294.614 MicroJy iter=     1421
   3    3   28-FEB-2009  03:43:38     IMAGR     Field    6 Clean flux density=    3.354 MilliJy     1421 comps
   3    3   28-FEB-2009  03:43:38     IMAGR     Total Cleaned flux density     =  549.825 MilliJy     9277 comps
   3    2   28-FEB-2009  03:43:38     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:38     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:42     IMAGR     Field   1 min = -484.0 MicroJy,max =  549.5 MicroJy
   3    2   28-FEB-2009  03:43:43     IMAGR     BGC Clean: using  103 cell beam + residuals >   283.67 MicroJy
   3    2   28-FEB-2009  03:43:43     IMAGR          635 Residual map points loaded
   3    4   28-FEB-2009  03:43:43     IMAGR     Field    1 min algorithm flux=  289.180 MicroJy iter=     1388
   3    3   28-FEB-2009  03:43:43     IMAGR     Field    1 Clean flux density=  528.063 MilliJy     1388 comps
   3    3   28-FEB-2009  03:43:43     IMAGR     Total Cleaned flux density     =  549.959 MilliJy     9451 comps
   3    2   28-FEB-2009  03:43:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:46     IMAGR     Field   7 min = -495.1 MicroJy,max =  469.2 MicroJy
   3    2   28-FEB-2009  03:43:46     IMAGR     BGC Clean: using  103 cell beam + residuals >   280.73 MicroJy
   3    2   28-FEB-2009  03:43:46     IMAGR          805 Residual map points loaded
   3    4   28-FEB-2009  03:43:46     IMAGR     Field    7 min algorithm flux=  286.722 MicroJy iter=     1543
   3    3   28-FEB-2009  03:43:46     IMAGR     Field    7 Clean flux density=    6.978 MilliJy     1543 comps
   3    3   28-FEB-2009  03:43:46     IMAGR     Total Cleaned flux density     =  550.454 MilliJy     9648 comps
   3    2   28-FEB-2009  03:43:46     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:46     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:49     IMAGR     Field   5 min = -525.4 MicroJy,max =  450.7 MicroJy
   3    2   28-FEB-2009  03:43:50     IMAGR     BGC Clean: using  103 cell beam + residuals >   277.62 MicroJy
   3    2   28-FEB-2009  03:43:50     IMAGR         1376 Residual map points loaded
   3    4   28-FEB-2009  03:43:50     IMAGR     Field    5 min algorithm flux=  285.700 MicroJy iter=     1575
   3    3   28-FEB-2009  03:43:50     IMAGR     Field    5 Clean flux density=   -1.505 MilliJy     1575 comps
   3    3   28-FEB-2009  03:43:50     IMAGR     Total Cleaned flux density     =  549.957 MilliJy     9925 comps
   3    2   28-FEB-2009  03:43:50     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:50     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:43:54     IMAGR     Field   3 min = -501.3 MicroJy,max =  515.0 MicroJy
   3    2   28-FEB-2009  03:43:55     IMAGR     BGC Clean: using  103 cell beam + residuals >   274.53 MicroJy
   3    2   28-FEB-2009  03:43:55     IMAGR         1356 Residual map points loaded
   3    4   28-FEB-2009  03:43:55     IMAGR     Field    3 min algorithm flux=  282.420 MicroJy iter=     1553
   3    3   28-FEB-2009  03:43:55     IMAGR     Field    3 Clean flux density=    5.986 MilliJy     1553 comps
   3    3   28-FEB-2009  03:43:55     IMAGR     Total Cleaned flux density     =  550.718 MilliJy    10203 comps
   3    2   28-FEB-2009  03:43:56     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:43:56     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:00     IMAGR     Field   2 min = -441.0 MicroJy,max =  457.4 MicroJy
   3    2   28-FEB-2009  03:44:01     IMAGR     BGC Clean: using  103 cell beam + residuals >   271.93 MicroJy
   3    2   28-FEB-2009  03:44:01     IMAGR          729 Residual map points loaded
   3    4   28-FEB-2009  03:44:01     IMAGR     Field    2 min algorithm flux=  277.412 MicroJy iter=     1504
   3    3   28-FEB-2009  03:44:01     IMAGR     Field    2 Clean flux density=    2.938 MilliJy     1504 comps
   3    3   28-FEB-2009  03:44:01     IMAGR     Total Cleaned flux density     =  551.170 MilliJy    10401 comps
   3    2   28-FEB-2009  03:44:01     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:01     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:04     IMAGR     Field   4 min = -454.1 MicroJy,max =  483.0 MicroJy
   3    2   28-FEB-2009  03:44:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   268.80 MicroJy
   3    2   28-FEB-2009  03:44:04     IMAGR         1730 Residual map points loaded
   3    4   28-FEB-2009  03:44:04     IMAGR     Field    4 min algorithm flux=  277.313 MicroJy iter=     1740
   3    3   28-FEB-2009  03:44:04     IMAGR     Field    4 Clean flux density=    4.877 MilliJy     1740 comps
   3    3   28-FEB-2009  03:44:04     IMAGR     Total Cleaned flux density     =  550.690 MilliJy    10724 comps
   3    2   28-FEB-2009  03:44:06     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:06     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:11     IMAGR     Field   6 min = -501.1 MicroJy,max =  420.4 MicroJy
   3    2   28-FEB-2009  03:44:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   266.01 MicroJy
   3    2   28-FEB-2009  03:44:12     IMAGR         1396 Residual map points loaded
   3    4   28-FEB-2009  03:44:12     IMAGR     Field    6 min algorithm flux= -273.209 MicroJy iter=     1704
   3    3   28-FEB-2009  03:44:12     IMAGR     Field    6 Clean flux density=    3.376 MilliJy     1704 comps
   3    3   28-FEB-2009  03:44:12     IMAGR     Total Cleaned flux density     =  550.712 MilliJy    11007 comps
   3    2   28-FEB-2009  03:44:12     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:12     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:17     IMAGR     Field   1 min = -455.5 MicroJy,max =  505.5 MicroJy
   3    2   28-FEB-2009  03:44:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   263.88 MicroJy
   3    2   28-FEB-2009  03:44:18     IMAGR          622 Residual map points loaded
   3    4   28-FEB-2009  03:44:18     IMAGR     Field    1 min algorithm flux= -268.350 MicroJy iter=     1569
   3    3   28-FEB-2009  03:44:18     IMAGR     Field    1 Clean flux density=  527.320 MilliJy     1569 comps
   3    3   28-FEB-2009  03:44:18     IMAGR     Total Cleaned flux density     =  549.969 MilliJy    11188 comps
   3    2   28-FEB-2009  03:44:18     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:18     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:21     IMAGR     Field   7 min = -472.8 MicroJy,max =  445.4 MicroJy
   3    2   28-FEB-2009  03:44:23     IMAGR     BGC Clean: using  103 cell beam + residuals >   261.48 MicroJy
   3    2   28-FEB-2009  03:44:23     IMAGR          761 Residual map points loaded
   3    4   28-FEB-2009  03:44:23     IMAGR     Field    7 min algorithm flux=  266.378 MicroJy iter=     1745
   3    3   28-FEB-2009  03:44:23     IMAGR     Field    7 Clean flux density=    7.356 MilliJy     1745 comps
   3    3   28-FEB-2009  03:44:23     IMAGR     Total Cleaned flux density     =  550.348 MilliJy    11390 comps
   3    2   28-FEB-2009  03:44:23     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:23     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:26     IMAGR     Field   5 min = -500.7 MicroJy,max =  441.1 MicroJy
   3    2   28-FEB-2009  03:44:27     IMAGR     BGC Clean: using  103 cell beam + residuals >   258.63 MicroJy
   3    2   28-FEB-2009  03:44:27     IMAGR         1410 Residual map points loaded
   3    4   28-FEB-2009  03:44:27     IMAGR     Field    5 min algorithm flux= -265.432 MicroJy iter=     1871
   3    3   28-FEB-2009  03:44:27     IMAGR     Field    5 Clean flux density=   -1.458 MilliJy     1871 comps
   3    3   28-FEB-2009  03:44:27     IMAGR     Total Cleaned flux density     =  550.394 MilliJy    11686 comps
   3    2   28-FEB-2009  03:44:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:31     IMAGR     Field   3 min = -479.2 MicroJy,max =  494.1 MicroJy
   3    2   28-FEB-2009  03:44:31     IMAGR     BGC Clean: using  103 cell beam + residuals >   255.76 MicroJy
   3    2   28-FEB-2009  03:44:31     IMAGR         1418 Residual map points loaded
   3    4   28-FEB-2009  03:44:31     IMAGR     Field    3 min algorithm flux=  262.451 MicroJy iter=     1848
   3    3   28-FEB-2009  03:44:31     IMAGR     Field    3 Clean flux density=    6.127 MilliJy     1848 comps
   3    3   28-FEB-2009  03:44:31     IMAGR     Total Cleaned flux density     =  550.535 MilliJy    11981 comps
   3    2   28-FEB-2009  03:44:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:36     IMAGR     Field   2 min = -427.8 MicroJy,max =  427.2 MicroJy
   3    2   28-FEB-2009  03:44:36     IMAGR     BGC Clean: using  103 cell beam + residuals >   253.61 MicroJy
   3    2   28-FEB-2009  03:44:36     IMAGR          662 Residual map points loaded
   3    4   28-FEB-2009  03:44:36     IMAGR     Field    2 min Clean flux    = -259.552 MicroJy iter=     1635
   3    5   28-FEB-2009  03:44:36     IMAGR     Field    2 Clean flux density=    2.750 MilliJy     1635 comps
   3    5   28-FEB-2009  03:44:36     IMAGR     Total Cleaned flux density     =  550.347 MilliJy    12112 comps
   3    2   28-FEB-2009  03:44:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:38     IMAGR     Field   4 min = -432.3 MicroJy,max =  453.6 MicroJy
   3    2   28-FEB-2009  03:44:39     IMAGR     BGC Clean: using  103 cell beam + residuals >   249.98 MicroJy
   3    2   28-FEB-2009  03:44:39     IMAGR         1769 Residual map points loaded
   3    4   28-FEB-2009  03:44:39     IMAGR     Field    4 min Clean flux    =  259.584 MicroJy iter=     1958
   3    5   28-FEB-2009  03:44:39     IMAGR     Field    4 Clean flux density=    5.455 MilliJy     1958 comps
   3    5   28-FEB-2009  03:44:39     IMAGR     Total Cleaned flux density     =  550.926 MilliJy    12330 comps
   3    2   28-FEB-2009  03:44:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:42     IMAGR     Field   6 min = -490.7 MicroJy,max =  407.0 MicroJy
   3    2   28-FEB-2009  03:44:43     IMAGR     BGC Clean: using  103 cell beam + residuals >   245.84 MicroJy
   3    2   28-FEB-2009  03:44:43     IMAGR         2378 Residual map points loaded
   3    4   28-FEB-2009  03:44:43     IMAGR     Field    6 min Clean flux    = -259.630 MicroJy iter=     1884
   3    5   28-FEB-2009  03:44:43     IMAGR     Field    6 Clean flux density=    3.110 MilliJy     1884 comps
   3    5   28-FEB-2009  03:44:43     IMAGR     Total Cleaned flux density     =  550.661 MilliJy    12510 comps
   3    2   28-FEB-2009  03:44:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:46     IMAGR     Field   1 min = -436.1 MicroJy,max =  482.5 MicroJy
   3    2   28-FEB-2009  03:44:46     IMAGR     BGC Clean: using  103 cell beam + residuals >   241.48 MicroJy
   3    2   28-FEB-2009  03:44:46     IMAGR         1430 Residual map points loaded
   3    4   28-FEB-2009  03:44:46     IMAGR     Field    1 min Clean flux    = -259.578 MicroJy iter=     1590
   3    5   28-FEB-2009  03:44:46     IMAGR     Field    1 Clean flux density=  527.242 MilliJy     1590 comps
   3    5   28-FEB-2009  03:44:46     IMAGR     Total Cleaned flux density     =  550.583 MilliJy    12531 comps
   3    2   28-FEB-2009  03:44:46     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:46     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:47     IMAGR     Field   7 min = -443.8 MicroJy,max =  423.9 MicroJy
   3    2   28-FEB-2009  03:44:48     IMAGR     BGC Clean: using  103 cell beam + residuals >   236.84 MicroJy
   3    2   28-FEB-2009  03:44:48     IMAGR         2966 Residual map points loaded
   3    4   28-FEB-2009  03:44:48     IMAGR     Field    7 min Clean flux    =  259.571 MicroJy iter=     1778
   3    5   28-FEB-2009  03:44:48     IMAGR     Field    7 Clean flux density=    7.539 MilliJy     1778 comps
   3    5   28-FEB-2009  03:44:48     IMAGR     Total Cleaned flux density     =  550.766 MilliJy    12564 comps
   3    2   28-FEB-2009  03:44:48     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:48     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:49     IMAGR     Field   5 min = -481.6 MicroJy,max =  428.3 MicroJy
   3    2   28-FEB-2009  03:44:49     IMAGR     BGC Clean: using  103 cell beam + residuals >   228.42 MicroJy
   3    2   28-FEB-2009  03:44:49     IMAGR         7019 Residual map points loaded
   3    4   28-FEB-2009  03:44:49     IMAGR     Field    5 min Clean flux    =  259.545 MicroJy iter=     1905
   3    5   28-FEB-2009  03:44:49     IMAGR     Field    5 Clean flux density=   -1.354 MilliJy     1905 comps
   3    5   28-FEB-2009  03:44:49     IMAGR     Total Cleaned flux density     =  550.871 MilliJy    12598 comps
   3    2   28-FEB-2009  03:44:49     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:49     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:50     IMAGR     Field   3 min = -474.8 MicroJy,max =  478.4 MicroJy
   3    2   28-FEB-2009  03:44:50     IMAGR     BGC Clean: using  103 cell beam + residuals >   212.25 MicroJy
   3    2   28-FEB-2009  03:44:50     IMAGR        19977 Residual map points loaded
   3    4   28-FEB-2009  03:44:50     IMAGR     Field    3 min Clean flux    =  259.642 MicroJy iter=     1876
   3    5   28-FEB-2009  03:44:50     IMAGR     Field    3 Clean flux density=    6.286 MilliJy     1876 comps
   3    5   28-FEB-2009  03:44:50     IMAGR     Total Cleaned flux density     =  551.030 MilliJy    12626 comps
   3    2   28-FEB-2009  03:44:50     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:44:50     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:44:51     IMAGR     Peak residual in window 259.642 less than limit 259.646 MicroJy
   3    3   28-FEB-2009  03:44:51     IMAGR     Merging the Clean components files
   3    3   28-FEB-2009  03:44:51     IMAGR     Field    1 compressed from      1590 to       996 components
   3    3   28-FEB-2009  03:44:51     IMAGR     Field    2 compressed from      1635 to      1129 components
   3    3   28-FEB-2009  03:44:51     IMAGR     Field    3 compressed from      1876 to      1281 components
   3    3   28-FEB-2009  03:44:51     IMAGR     Field    4 compressed from      1958 to      1373 components
   3    3   28-FEB-2009  03:44:53     IMAGR     Field    5 compressed from      1905 to      1305 components
   3    3   28-FEB-2009  03:44:53     IMAGR     Field    6 compressed from      1884 to      1292 components
   3    3   28-FEB-2009  03:44:53     IMAGR     Field    7 compressed from      1778 to      1214 components
   3    4   28-FEB-2009  03:44:54     IMAGR     Field   1 min = -434.0 MicroJy,max =  477.3 MicroJy
   3    4   28-FEB-2009  03:44:55     IMAGR     Field   2 min = -411.5 MicroJy,max =  409.5 MicroJy
   3    4   28-FEB-2009  03:44:56     IMAGR     Field   3 min = -472.1 MicroJy,max =  477.9 MicroJy
   3    4   28-FEB-2009  03:44:56     IMAGR     Field   4 min = -428.0 MicroJy,max =  449.8 MicroJy
   3    4   28-FEB-2009  03:44:57     IMAGR     Field   5 min = -482.5 MicroJy,max =  425.5 MicroJy
   3    4   28-FEB-2009  03:44:58     IMAGR     Field   6 min = -489.5 MicroJy,max =  406.3 MicroJy
   3    4   28-FEB-2009  03:44:59     IMAGR     Field   7 min = -443.7 MicroJy,max =  418.9 MicroJy
   3    3   28-FEB-2009  03:44:59     IMAGR     Restoring Clean components
   3    3   28-FEB-2009  03:45:20     IMAGR     Restoring overlapped Clean components
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore 227.014 MicroJy (    66 CCs) from field   1 to field   2
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore   2.146 MilliJy (   140 CCs) from field   1 to field   3
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore 306.957 MicroJy (   104 CCs) from field   1 to field   4
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore-871.771 MicroJy (   144 CCs) from field   1 to field   5
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore   1.203 MilliJy (   132 CCs) from field   1 to field   6
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore-790.153 MicroJy (   106 CCs) from field   1 to field   7
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore-264.813 MicroJy (    97 CCs) from field   2 to field   1
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore 233.789 MicroJy (   126 CCs) from field   2 to field   3
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore 490.992 MicroJy (   105 CCs) from field   2 to field   4
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore   1.504 MilliJy (   106 CCs) from field   3 to field   1
   3    3   28-FEB-2009  03:45:20     IMAGR     Restore   1.568 MilliJy (   139 CCs) from field   3 to field   2
   3    3   28-FEB-2009  03:45:24     IMAGR     Restore 732.490 MicroJy (    68 CCs) from field   3 to field   5
   3    3   28-FEB-2009  03:45:26     IMAGR     Restore 779.683 MicroJy (   128 CCs) from field   4 to field   1
   3    3   28-FEB-2009  03:45:26     IMAGR     Restore   3.084 MilliJy (   132 CCs) from field   4 to field   2
   3    3   28-FEB-2009  03:45:26     IMAGR     Restore   1.258 MilliJy (   124 CCs) from field   4 to field   6
   3    3   28-FEB-2009  03:45:26     IMAGR     Restore-460.817 MicroJy (   101 CCs) from field   5 to field   1
   3    3   28-FEB-2009  03:45:26     IMAGR     Restore 698.992 MicroJy (   109 CCs) from field   5 to field   3
   3    3   28-FEB-2009  03:45:26     IMAGR     Restore   1.019 MilliJy (   102 CCs) from field   5 to field   7
   3    3   28-FEB-2009  03:45:27     IMAGR     Restore   1.064 MilliJy (   121 CCs) from field   6 to field   1
   3    3   28-FEB-2009  03:45:27     IMAGR     Restore-330.093 MicroJy (    61 CCs) from field   6 to field   4
   3    3   28-FEB-2009  03:45:27     IMAGR     Restore   1.103 MilliJy (   143 CCs) from field   6 to field   7
   3    3   28-FEB-2009  03:45:27     IMAGR     Restore   1.255 MilliJy (    74 CCs) from field   7 to field   1
   3    3   28-FEB-2009  03:45:27     IMAGR     Restore   1.560 MilliJy (   120 CCs) from field   7 to field   5
   3    3   28-FEB-2009  03:45:27     IMAGR     Restore 762.221 MicroJy (   113 CCs) from field   7 to field   6
   3    3   28-FEB-2009  03:45:32     IMAGR     Checking image max/min
   3    3   28-FEB-2009  03:45:32     IMAGR     Field    1 final Clean flux   531.119 MilliJy
   3    3   28-FEB-2009  03:45:32     IMAGR     Field    2 final Clean flux     7.630 MilliJy
   3    3   28-FEB-2009  03:45:32     IMAGR     Field    3 final Clean flux     9.365 MilliJy
   3    3   28-FEB-2009  03:45:32     IMAGR     Field    4 final Clean flux     5.923 MilliJy
   3    3   28-FEB-2009  03:45:32     IMAGR     Field    5 final Clean flux    66.365 MicroJy
   3    3   28-FEB-2009  03:45:32     IMAGR     Field    6 final Clean flux     6.333 MilliJy
   3    3   28-FEB-2009  03:45:32     IMAGR     Field    7 final Clean flux     8.872 MilliJy
   3    6   28-FEB-2009  03:45:32     IMAGR     Deleting UV work file:
   3    4   28-FEB-2009  03:45:32     IMAGR     Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  03:45:32     IMAGR     Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  03:45:32     IMAGR     Destroyed UV image file: catno=     15 disk= 1
   3    3   28-FEB-2009  03:45:32     IMAGR     Appears to have ended successfully
   3    5   28-FEB-2009  03:45:32     IMAGR     vlbacald-b   31DEC07 TST: Cpu=     310.5  Real=     463
   3    2   28-FEB-2009  03:45:33     AIPS      Resumes
   3    3   28-FEB-2009  03:45:33     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:45:33     AIPS      rm -f /tmp/SETFC@1831-126_LBAND1.0-1 >& /dev/null
   3    5   28-FEB-2009  03:45:33     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:45:33     UVPLT     GFINIS: number records used    7381
   3    2   28-FEB-2009  03:45:33     UVPLT     PLTUV:     156760 Points plotted
   3    2   28-FEB-2009  03:45:33     UVPLT     PLTUV: Plot file version    1  created.
   3    3   28-FEB-2009  03:45:33     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:45:33     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.2  Real=       0
   3    2   28-FEB-2009  03:45:33     AIPS      Resumes
   3    5   28-FEB-2009  03:45:33     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:45:33     UVPLT     GFINIS: number records used    3693
   3    2   28-FEB-2009  03:45:33     UVPLT     PLTUV:      78380 Points plotted
   3    2   28-FEB-2009  03:45:33     UVPLT     PLTUV: Plot file version    2  created.
   3    3   28-FEB-2009  03:45:33     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:45:33     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    2   28-FEB-2009  03:45:33     AIPS      Resumes
   3    5   28-FEB-2009  03:45:33     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:45:33     UVPLT     GFINIS: number records used    3693
   3    2   28-FEB-2009  03:45:33     UVPLT     PLTUV:      78380 Points plotted
   3    2   28-FEB-2009  03:45:33     UVPLT     PLTUV: Plot file version    3  created.
   3    3   28-FEB-2009  03:45:33     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:45:33     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    2   28-FEB-2009  03:45:33     AIPS      Resumes
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed MA image file: catno=     16 disk= 1
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed MA image file: catno=     17 disk= 1
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed MA image file: catno=     18 disk= 1
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed MA image file: catno=     19 disk= 1
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed MA image file: catno=     20 disk= 1
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed MA image file: catno=     21 disk= 1
   3    4   28-FEB-2009  03:45:34     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:45:35     AIPS      Destroyed MA image file: catno=     22 disk= 1
   3    2   28-FEB-2009  03:45:35     AIPS      Disk  1 in-CNO   23 renumbered as CNO   15
   3    2   28-FEB-2009  03:45:35     AIPS      Disk  1 in-CNO   24 renumbered as CNO   16
   3    2   28-FEB-2009  03:45:35     AIPS      Disk  1 in-CNO   25 renumbered as CNO   17
   3    2   28-FEB-2009  03:45:35     AIPS      Disk  1 in-CNO   26 renumbered as CNO   18
   3    2   28-FEB-2009  03:45:35     AIPS      Disk  1 in-CNO   27 renumbered as CNO   19
   3    2   28-FEB-2009  03:45:35     AIPS      Disk  1 in-CNO   28 renumbered as CNO   20
   3    2   28-FEB-2009  03:45:35     AIPS      Disk  1 in-CNO   29 renumbered as CNO   21
   3    5   28-FEB-2009  03:45:35     AIPS      ' '
   3    5   28-FEB-2009  03:45:35     AIPS      'ESTIMATED RMS:'     '0.02051 MILLI JANSKY'
   3    3   28-FEB-2009  03:45:35     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:45:35     AIPS      rm -f /tmp/SETFC@NGC6712_LBAND1.0-1 >& /dev/null
   3    2   28-FEB-2009  03:45:35     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:45:35     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:45:35     SETFC     Found NGC6712     .LBAND1.00001 Disk  1 slot     5
   3    4   28-FEB-2009  03:45:35     SETFC     SETCEL: max baseline, W = 1.0931E+05 7.7091E+04 wavelengths
   3    4   28-FEB-2009  03:45:35     SETFC     SETCEL: max field radius 4.2891E+02 arc seconds
   3    4   28-FEB-2009  03:45:35     SETFC     SETCEL: recommends IMSIZE  1364 CELLSIZE   0.628966
   3    4   28-FEB-2009  03:45:35     SETFC     SETCEL: returns    IMSIZE  2048 CELLSIZE   0.422985
   3    2   28-FEB-2009  03:45:35     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:45:35     SETFC     ZTXOP2: /tmp/SETFC@NGC6712_LBAND1.0-1
   3    4   28-FEB-2009  03:45:35     SETFC     FLYEYE added   7 fields to BOXFILE to  0.204 deg
   3    7   28-FEB-2009  03:45:35     SETFC     WARNING: THIS MAY NOT COVER THE DESIRED AREA
   3    4   28-FEB-2009  03:45:35     SETFC     First field number written was   1
   3    4   28-FEB-2009  03:45:35     SETFC     Highest field number written was   7
   3    2   28-FEB-2009  03:45:35     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:45:35     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:45:35     SETFC     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    2   28-FEB-2009  03:45:36     AIPS      Resumes
   3    3   28-FEB-2009  03:45:40     AIPS      SETFC    was not found to be running
   3    5   28-FEB-2009  03:45:40     AIPS      'SEARCHING FOR NVSS SOURCES'
   3    2   28-FEB-2009  03:45:40     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:45:40     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:45:40     SETFC     Found NGC6712     .LBAND1.00001 Disk  1 slot     5
   3    2   28-FEB-2009  03:45:40     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:45:40     SETFC     ZTXOP2: /tmp/SETFC@NGC6712_LBAND1.0-1
   3    3   28-FEB-2009  03:45:40     SETFC     Searching catalog between  0.20 and   0.77 degrees radius
   3    2   28-FEB-2009  03:45:40     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:45:40     SETFC     ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030
   3    3   28-FEB-2009  03:45:41     SETFC     No NVSS sources selected for BOXFILE
   3    3   28-FEB-2009  03:45:41     SETFC     The Sun is 163.3 deg away - ignoring
   3    4   28-FEB-2009  03:45:41     SETFC     First field number written was   8
   3    4   28-FEB-2009  03:45:41     SETFC     Highest field number written was   7
   3    2   28-FEB-2009  03:45:41     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:45:41     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:45:41     SETFC     vlbacald-b   31DEC07 TST: Cpu=       1.2  Real=       1
   3    2   28-FEB-2009  03:45:41     AIPS      Resumes
   3    3   28-FEB-2009  03:45:41     AIPS      SETFC    was not found to be running
   3    3   28-FEB-2009  03:45:41     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:45:41     AIPS      echo "SETFC FILE FOR SOURCE NGC6712 BELOW IS:" >> $ARUN/AM0308_1
   3    3   28-FEB-2009  03:45:41     AIPS      990JUL15_1.1.log
   3    3   28-FEB-2009  03:45:41     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:45:41     AIPS      cat /tmp/SETFC@NGC6712_LBAND1.0-1 >> $ARUN/AM0308_1990JUL15_1.1.
   3    3   28-FEB-2009  03:45:41     AIPS      log
   3    5   28-FEB-2009  03:45:41     AIPS      '    NOW STARTING WITH SOURCE  :3  =NGC6712'
   3    5   28-FEB-2009  03:45:41     AIPS      ' '
   3    5   28-FEB-2009  03:45:41     IMAGR     Task IMAGR  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:45:43     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:45:43     IMAGR     ZTXOP2: /tmp/SETFC@NGC6712_LBAND1.0-1
   3    3   28-FEB-2009  03:45:43     IMAGR     FIELDF: Final field parameters and # read are:
   3    3   28-FEB-2009  03:45:43     IMAGR     Field    1 2036 2036 -7.3717E-02  3.9328E-02          0
   3    3   28-FEB-2009  03:45:43     IMAGR     Field    2 2036 2036 -7.3717E-02 -7.3516E+02          0
   3    3   28-FEB-2009  03:45:43     IMAGR     Field    3 2036 2036 -6.3690E+02 -3.6746E+02          0
   3    3   28-FEB-2009  03:45:43     IMAGR     Field    4 2036 2036  6.3690E+02 -3.6746E+02          0
   3    3   28-FEB-2009  03:45:43     IMAGR     Field    5 2036 2036 -6.3646E+02  3.6774E+02          0
   3    3   28-FEB-2009  03:45:43     IMAGR     Field    6 2036 2036  6.3646E+02  3.6774E+02          0
   3    3   28-FEB-2009  03:45:43     IMAGR     Field    7 2036 2036 -7.3717E-02  7.3524E+02          0
   3    2   28-FEB-2009  03:45:43     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:45:43     IMAGR     ZTXOP2: /tmp/SETFC@NGC6712_LBAND1.0-1
   3    7   28-FEB-2009  03:45:43     IMAGR     WINDF: Number of clean boxes/field read as follows:
   3    3   28-FEB-2009  03:45:43     IMAGR     Field 01:   1  Field 02:   1  Field 03:   1  Field 04:   1
   3    3   28-FEB-2009  03:45:43     IMAGR     Field 05:   1  Field 06:   1  Field 07:   1
   3    2   28-FEB-2009  03:45:43     IMAGR     Create NGC6712     .IMAGR .   1 (UV)  on disk  1  cno   22
   3    4   28-FEB-2009  03:45:43     IMAGR     Beginning channel    1 through    1 with  2 IFs
   3    3   28-FEB-2009  03:45:43     IMAGR     IMACPY: Copied   174390 visibilities to be imaged
   3    2   28-FEB-2009  03:45:43     IMAGR     QINIT: did a GET  of   20480 Kwords, OFF        -91582797
   3    2   28-FEB-2009  03:45:43     IMAGR     UVWAIT: begin finding uniform weights
   3    2   28-FEB-2009  03:45:43     IMAGR     UVWAIT: Average grid weight  5.344E+04
   3    2   28-FEB-2009  03:45:43     IMAGR     UVWAIT: Adding temperance S  1.069E+04
   3    2   28-FEB-2009  03:45:43     IMAGR     UVWAIT: begin applying uniform or other weights
   3    4   28-FEB-2009  03:45:44     IMAGR     UVWAIT: Sum of weights in  2.805E+08 and out  5.642E+08
   3    4   28-FEB-2009  03:45:44     IMAGR     UVWAIT: Noise is increased by a factor 1.175 due to weighting
   3    4   28-FEB-2009  03:45:44     IMAGR     UVWAIT: Average summed weight  5.344E+04 over     348780 vis
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .IBM001.   1 (MA)  on disk  1  cno   23
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .IBM002.   1 (MA)  on disk  1  cno   24
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .IBM003.   1 (MA)  on disk  1  cno   25
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .IBM004.   1 (MA)  on disk  1  cno   26
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .IBM005.   1 (MA)  on disk  1  cno   27
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .IBM006.   1 (MA)  on disk  1  cno   28
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .IBM007.   1 (MA)  on disk  1  cno   29
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .ICL001.   1 (MA)  on disk  1  cno   30
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .ICL002.   1 (MA)  on disk  1  cno   31
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .ICL003.   1 (MA)  on disk  1  cno   32
   3    2   28-FEB-2009  03:45:44     IMAGR     Create NGC6712     .ICL004.   1 (MA)  on disk  1  cno   33
   3    2   28-FEB-2009  03:45:45     IMAGR     Create NGC6712     .ICL005.   1 (MA)  on disk  1  cno   34
   3    2   28-FEB-2009  03:45:45     IMAGR     Create NGC6712     .ICL006.   1 (MA)  on disk  1  cno   35
   3    2   28-FEB-2009  03:45:45     IMAGR     Create NGC6712     .ICL007.   1 (MA)  on disk  1  cno   36
   3    2   28-FEB-2009  03:45:45     IMAGR     GRDFLT: X and Y convolution type = SPHEROIDAL
   3    2   28-FEB-2009  03:45:45     IMAGR     GRDFLT: X and Y parms =  3.0000  1.0000
   3    2   28-FEB-2009  03:45:45     IMAGR     GRDFLT: convolution function sampled every 1/100 of a cell
   3    2   28-FEB-2009  03:45:45     IMAGR     GRDMEM: Ave    2 Channels; 1.464900E+09 to 1.514900E+09 Hz
   3    4   28-FEB-2009  03:45:45     IMAGR     Field   1 Sum of gridding weights =  5.98918E+09
   3    4   28-FEB-2009  03:45:46     IMAGR     Field   1 Beam min = -117.6 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:45:46     IMAGR     Field   1 fit FWHM =    3.949 x    2.886      arcsec, PA=  -36.1
   3    4   28-FEB-2009  03:45:46     IMAGR     Field   2 Sum of gridding weights =  5.98919E+09
   3    4   28-FEB-2009  03:45:50     IMAGR     Field   2 Beam min = -117.6 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:45:50     IMAGR     Field   2 fit FWHM =    3.961 x    2.890      arcsec, PA=  -35.7
   3    4   28-FEB-2009  03:45:51     IMAGR     Field   3 Sum of gridding weights =  5.98919E+09
   3    4   28-FEB-2009  03:45:52     IMAGR     Field   3 Beam min = -118.4 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:45:52     IMAGR     Field   3 fit FWHM =    3.953 x    2.890      arcsec, PA=  -35.8
   3    4   28-FEB-2009  03:45:53     IMAGR     Field   4 Sum of gridding weights =  5.98919E+09
   3    4   28-FEB-2009  03:45:53     IMAGR     Field   4 Beam min = -116.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:45:53     IMAGR     Field   4 fit FWHM =    3.818 x    2.779      arcsec, PA=  -49.5
   3    4   28-FEB-2009  03:45:53     IMAGR     Field   5 Sum of gridding weights =  5.98919E+09
   3    4   28-FEB-2009  03:45:54     IMAGR     Field   5 Beam min = -118.4 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:45:54     IMAGR     Field   5 fit FWHM =    3.941 x    2.887      arcsec, PA=  -36.2
   3    4   28-FEB-2009  03:45:54     IMAGR     Field   6 Sum of gridding weights =  5.98920E+09
   3    4   28-FEB-2009  03:45:56     IMAGR     Field   6 Beam min = -116.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:45:56     IMAGR     Field   6 fit FWHM =    3.814 x    2.774      arcsec, PA=  -49.9
   3    4   28-FEB-2009  03:45:56     IMAGR     Field   7 Sum of gridding weights =  5.98919E+09
   3    4   28-FEB-2009  03:45:57     IMAGR     Field   7 Beam min = -117.6 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:45:57     IMAGR     Field   7 fit FWHM =    3.938 x    2.883      arcsec, PA=  -36.5
   3    4   28-FEB-2009  03:45:57     IMAGR     CLBHIS: minimum component 0.500 of current peak
   3    4   28-FEB-2009  03:45:59     IMAGR     Field   1 min = -461.9 MicroJy,max =    3.0 MilliJy
   3    4   28-FEB-2009  03:46:00     IMAGR     Field   2 min = -314.8 MicroJy,max =  782.6 MicroJy
   3    4   28-FEB-2009  03:46:01     IMAGR     Field   3 min = -456.7 MicroJy,max =    3.0 MilliJy
   3    4   28-FEB-2009  03:46:02     IMAGR     Field   4 min = -295.3 MicroJy,max =  625.2 MicroJy
   3    4   28-FEB-2009  03:46:05     IMAGR     Field   5 min = -378.7 MicroJy,max =    1.5 MilliJy
   3    4   28-FEB-2009  03:46:06     IMAGR     Field   6 min = -324.8 MicroJy,max =  481.1 MicroJy
   3    4   28-FEB-2009  03:46:07     IMAGR     Field   7 min = -333.8 MicroJy,max =  758.7 MicroJy
   3    2   28-FEB-2009  03:46:08     IMAGR     BGC Clean: using  115 cell beam + residuals >   304.00 MicroJy
   3    2   28-FEB-2009  03:46:09     IMAGR         4814 Residual map points loaded
   3    4   28-FEB-2009  03:46:11     IMAGR     Field    1 min algorithm flux=    1.495 MilliJy iter=       20
   3    3   28-FEB-2009  03:46:11     IMAGR     Field    1 Clean flux density=    3.940 MilliJy       20 comps
   3    3   28-FEB-2009  03:46:11     IMAGR     Total Cleaned flux density     =    3.940 MilliJy       20 comps
   3    4   28-FEB-2009  03:46:11     IMAGR     SETDO3: imaging done with multiple tangent planes
   3    2   28-FEB-2009  03:46:11     IMAGR     VISDFT: Begin DFT component subtraction
   3    2   28-FEB-2009  03:46:11     IMAGR     VISDFT: Model components of type Point
   3    3   28-FEB-2009  03:46:11     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:16     IMAGR     Field   3 min = -339.1 MicroJy,max =    1.5 MilliJy
   3    2   28-FEB-2009  03:46:17     IMAGR     BGC Clean: using  115 cell beam + residuals >   302.02 MicroJy
   3    2   28-FEB-2009  03:46:17     IMAGR         2430 Residual map points loaded
   3    4   28-FEB-2009  03:46:17     IMAGR     Field    3 min allowed flux  =  750.619 MicroJy iter=       34
   3    3   28-FEB-2009  03:46:17     IMAGR     Field    3 Clean flux density=    3.583 MilliJy       34 comps
   3    3   28-FEB-2009  03:46:17     IMAGR     Total Cleaned flux density     =    7.523 MilliJy       54 comps
   3    2   28-FEB-2009  03:46:17     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:46:17     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:21     IMAGR     Field   1 min = -327.8 MicroJy,max =    1.5 MilliJy
   3    2   28-FEB-2009  03:46:22     IMAGR     BGC Clean: using  103 cell beam + residuals >   232.03 MicroJy
   3    2   28-FEB-2009  03:46:22     IMAGR         4462 Residual map points loaded
   3    4   28-FEB-2009  03:46:22     IMAGR     Field    1 min allowed flux  =  718.276 MicroJy iter=       55
   3    3   28-FEB-2009  03:46:22     IMAGR     Field    1 Clean flux density=    7.282 MilliJy       55 comps
   3    3   28-FEB-2009  03:46:22     IMAGR     Total Cleaned flux density     =   10.865 MilliJy       89 comps
   3    2   28-FEB-2009  03:46:22     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:46:22     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:26     IMAGR     Field   5 min = -344.5 MicroJy,max =    1.5 MilliJy
   3    2   28-FEB-2009  03:46:26     IMAGR     BGC Clean: using  103 cell beam + residuals >   228.28 MicroJy
   3    2   28-FEB-2009  03:46:27     IMAGR         3644 Residual map points loaded
   3    4   28-FEB-2009  03:46:27     IMAGR     Field    5 min allowed flux  =  753.978 MicroJy iter=       19
   3    3   28-FEB-2009  03:46:27     IMAGR     Field    5 Clean flux density=    1.959 MilliJy       19 comps
   3    3   28-FEB-2009  03:46:27     IMAGR     Total Cleaned flux density     =   12.824 MilliJy      108 comps
   3    2   28-FEB-2009  03:46:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:46:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:28     IMAGR     Field   2 min = -294.5 MicroJy,max =  774.0 MicroJy
   3    2   28-FEB-2009  03:46:30     IMAGR     BGC Clean: using  103 cell beam + residuals >   223.09 MicroJy
   3    2   28-FEB-2009  03:46:30     IMAGR         1154 Residual map points loaded
   3    4   28-FEB-2009  03:46:30     IMAGR     Field    2 min allowed flux  =  378.806 MicroJy iter=       20
   3    3   28-FEB-2009  03:46:30     IMAGR     Field    2 Clean flux density=    1.031 MilliJy       20 comps
   3    3   28-FEB-2009  03:46:30     IMAGR     Total Cleaned flux density     =   13.855 MilliJy      128 comps
   3    2   28-FEB-2009  03:46:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:46:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:32     IMAGR     Field   7 min = -307.3 MicroJy,max =  755.8 MicroJy
   3    2   28-FEB-2009  03:46:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   215.52 MicroJy
   3    2   28-FEB-2009  03:46:33     IMAGR         1783 Residual map points loaded
   3    4   28-FEB-2009  03:46:33     IMAGR     Field    7 min allowed flux  =  376.317 MicroJy iter=       26
   3    3   28-FEB-2009  03:46:33     IMAGR     Field    7 Clean flux density=    1.289 MilliJy       26 comps
   3    3   28-FEB-2009  03:46:33     IMAGR     Total Cleaned flux density     =   15.144 MilliJy      154 comps
   3    2   28-FEB-2009  03:46:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:46:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:37     IMAGR     Field   5 min = -310.3 MicroJy,max =  746.3 MicroJy
   3    2   28-FEB-2009  03:46:38     IMAGR     BGC Clean: using  103 cell beam + residuals >   213.86 MicroJy
   3    2   28-FEB-2009  03:46:38     IMAGR         3658 Residual map points loaded
   3    4   28-FEB-2009  03:46:38     IMAGR     Field    5 min allowed flux  =  371.139 MicroJy iter=       86
   3    3   28-FEB-2009  03:46:38     IMAGR     Field    5 Clean flux density=    5.272 MilliJy       86 comps
   3    3   28-FEB-2009  03:46:38     IMAGR     Total Cleaned flux density     =   18.457 MilliJy      221 comps
   3    2   28-FEB-2009  03:46:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:46:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:44     IMAGR     Field   3 min = -315.8 MicroJy,max =  729.2 MicroJy
   3    2   28-FEB-2009  03:46:45     IMAGR     BGC Clean: using  103 cell beam + residuals >   205.12 MicroJy
   3    2   28-FEB-2009  03:46:45     IMAGR         3807 Residual map points loaded
   3    4   28-FEB-2009  03:46:45     IMAGR     Field    3 min allowed flux  =  362.514 MicroJy iter=       85
   3    3   28-FEB-2009  03:46:45     IMAGR     Field    3 Clean flux density=    6.206 MilliJy       85 comps
   3    3   28-FEB-2009  03:46:45     IMAGR     Total Cleaned flux density     =   21.080 MilliJy      272 comps
   3    2   28-FEB-2009  03:46:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:46:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:52     IMAGR     Field   1 min = -273.4 MicroJy,max =  716.3 MicroJy
   3    2   28-FEB-2009  03:46:53     IMAGR     BGC Clean: using  103 cell beam + residuals >   196.35 MicroJy
   3    2   28-FEB-2009  03:46:53     IMAGR         3969 Residual map points loaded
   3    4   28-FEB-2009  03:46:53     IMAGR     Field    1 min allowed flux  =  357.950 MicroJy iter=      131
   3    3   28-FEB-2009  03:46:53     IMAGR     Field    1 Clean flux density=   11.024 MilliJy      131 comps
   3    3   28-FEB-2009  03:46:53     IMAGR     Total Cleaned flux density     =   24.822 MilliJy      348 comps
   3    2   28-FEB-2009  03:46:53     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:46:53     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:46:59     IMAGR     Field   2 min = -296.5 MicroJy,max =  370.5 MicroJy
   3    2   28-FEB-2009  03:47:00     IMAGR     BGC Clean: using  103 cell beam + residuals >   194.57 MicroJy
   3    2   28-FEB-2009  03:47:00     IMAGR         1795 Residual map points loaded
   3    4   28-FEB-2009  03:47:00     IMAGR     Field    2 min algorithm flux=  229.102 MicroJy iter=       84
   3    3   28-FEB-2009  03:47:00     IMAGR     Field    2 Clean flux density=    2.171 MilliJy       84 comps
   3    3   28-FEB-2009  03:47:00     IMAGR     Total Cleaned flux density     =   25.962 MilliJy      412 comps
   3    2   28-FEB-2009  03:47:00     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:47:00     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:47:06     IMAGR     Field   7 min = -265.0 MicroJy,max =  377.1 MicroJy
   3    2   28-FEB-2009  03:47:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   192.89 MicroJy
   3    2   28-FEB-2009  03:47:07     IMAGR         2368 Residual map points loaded
   3    4   28-FEB-2009  03:47:07     IMAGR     Field    7 min algorithm flux=  229.707 MicroJy iter=      106
   3    3   28-FEB-2009  03:47:07     IMAGR     Field    7 Clean flux density=    2.979 MilliJy      106 comps
   3    3   28-FEB-2009  03:47:07     IMAGR     Total Cleaned flux density     =   27.652 MilliJy      492 comps
   3    2   28-FEB-2009  03:47:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:47:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:47:14     IMAGR     Field   5 min = -301.8 MicroJy,max =  357.9 MicroJy
   3    2   28-FEB-2009  03:47:15     IMAGR     BGC Clean: using  103 cell beam + residuals >   190.29 MicroJy
   3    2   28-FEB-2009  03:47:15     IMAGR         3798 Residual map points loaded
   3    4   28-FEB-2009  03:47:15     IMAGR     Field    5 min algorithm flux=  233.261 MicroJy iter=      203
   3    3   28-FEB-2009  03:47:15     IMAGR     Field    5 Clean flux density=    8.454 MilliJy      203 comps
   3    3   28-FEB-2009  03:47:15     IMAGR     Total Cleaned flux density     =   30.834 MilliJy      609 comps
   3    2   28-FEB-2009  03:47:15     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:47:15     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:47:23     IMAGR     Field   3 min = -299.9 MicroJy,max =  359.7 MicroJy
   3    2   28-FEB-2009  03:47:24     IMAGR     BGC Clean: using  103 cell beam + residuals >   186.20 MicroJy
   3    2   28-FEB-2009  03:47:25     IMAGR         2739 Residual map points loaded
   3    4   28-FEB-2009  03:47:25     IMAGR     Field    3 min algorithm flux=  216.234 MicroJy iter=      181
   3    3   28-FEB-2009  03:47:25     IMAGR     Field    3 Clean flux density=    8.018 MilliJy      181 comps
   3    3   28-FEB-2009  03:47:25     IMAGR     Total Cleaned flux density     =   32.645 MilliJy      705 comps
   3    2   28-FEB-2009  03:47:25     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:47:25     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:47:34     IMAGR     Field   1 min = -250.1 MicroJy,max =  360.3 MicroJy
   3    2   28-FEB-2009  03:47:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   182.82 MicroJy
   3    2   28-FEB-2009  03:47:34     IMAGR         3238 Residual map points loaded
   3    4   28-FEB-2009  03:47:34     IMAGR     Field    1 min algorithm flux=  217.189 MicroJy iter=      262
   3    3   28-FEB-2009  03:47:34     IMAGR     Field    1 Clean flux density=   14.043 MilliJy      262 comps
   3    3   28-FEB-2009  03:47:34     IMAGR     Total Cleaned flux density     =   35.664 MilliJy      836 comps
   3    2   28-FEB-2009  03:47:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:47:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:47:44     IMAGR     Field   6 min = -318.7 MicroJy,max =  282.3 MicroJy
   3    2   28-FEB-2009  03:47:44     IMAGR     BGC Clean: using  103 cell beam + residuals >   181.97 MicroJy
   3    2   28-FEB-2009  03:47:44     IMAGR          833 Residual map points loaded
   3    4   28-FEB-2009  03:47:44     IMAGR     Field    6 min algorithm flux=  201.074 MicroJy iter=       86
   3    3   28-FEB-2009  03:47:44     IMAGR     Field    6 Clean flux density=   43.607 MicroJy       86 comps
   3    3   28-FEB-2009  03:47:44     IMAGR     Total Cleaned flux density     =   35.708 MilliJy      922 comps
   3    2   28-FEB-2009  03:47:44     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:47:44     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:47:50     IMAGR     Field   4 min = -293.1 MicroJy,max =  284.2 MicroJy
   3    2   28-FEB-2009  03:47:51     IMAGR     BGC Clean: using  103 cell beam + residuals >   181.09 MicroJy
   3    2   28-FEB-2009  03:47:51     IMAGR          841 Residual map points loaded
   3    4   28-FEB-2009  03:47:51     IMAGR     Field    4 min algorithm flux= -198.327 MicroJy iter=       91
   3    3   28-FEB-2009  03:47:51     IMAGR     Field    4 Clean flux density=  535.333 MicroJy       91 comps
   3    3   28-FEB-2009  03:47:51     IMAGR     Total Cleaned flux density     =   36.243 MilliJy     1013 comps
   3    2   28-FEB-2009  03:47:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:47:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:47:57     IMAGR     Field   5 min = -301.5 MicroJy,max =  285.9 MicroJy
   3    2   28-FEB-2009  03:47:58     IMAGR     BGC Clean: using  103 cell beam + residuals >   178.58 MicroJy
   3    2   28-FEB-2009  03:47:58     IMAGR         2988 Residual map points loaded
   3    4   28-FEB-2009  03:47:58     IMAGR     Field    5 min algorithm flux=  199.998 MicroJy iter=      331
   3    3   28-FEB-2009  03:47:58     IMAGR     Field    5 Clean flux density=    9.388 MilliJy      331 comps
   3    3   28-FEB-2009  03:47:58     IMAGR     Total Cleaned flux density     =   37.177 MilliJy     1141 comps
   3    2   28-FEB-2009  03:47:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:47:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:48:05     IMAGR     Field   7 min = -258.8 MicroJy,max =  321.9 MicroJy
   3    2   28-FEB-2009  03:48:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   176.99 MicroJy
   3    2   28-FEB-2009  03:48:08     IMAGR         2706 Residual map points loaded
   3    4   28-FEB-2009  03:48:08     IMAGR     Field    7 min algorithm flux= -197.685 MicroJy iter=      245
   3    3   28-FEB-2009  03:48:08     IMAGR     Field    7 Clean flux density=    3.590 MilliJy      245 comps
   3    3   28-FEB-2009  03:48:08     IMAGR     Total Cleaned flux density     =   37.788 MilliJy     1280 comps
   3    2   28-FEB-2009  03:48:10     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:10     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:10     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:11     IMAGR     Field   2 min = -291.9 MicroJy,max =  283.9 MicroJy
   3    2   28-FEB-2009  03:48:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   175.29 MicroJy
   3    2   28-FEB-2009  03:48:12     IMAGR         2415 Residual map points loaded
   3    4   28-FEB-2009  03:48:12     IMAGR     Field    2 min algorithm flux=  194.735 MicroJy iter=      232
   3    3   28-FEB-2009  03:48:12     IMAGR     Field    2 Clean flux density=    2.461 MilliJy      232 comps
   3    3   28-FEB-2009  03:48:12     IMAGR     Total Cleaned flux density     =   38.078 MilliJy     1428 comps
   3    2   28-FEB-2009  03:48:15     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:15     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:16     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:17     IMAGR     Field   1 min = -239.0 MicroJy,max =  278.3 MicroJy
   3    2   28-FEB-2009  03:48:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   173.34 MicroJy
   3    2   28-FEB-2009  03:48:18     IMAGR         2642 Residual map points loaded
   3    4   28-FEB-2009  03:48:18     IMAGR     Field    1 min algorithm flux= -191.084 MicroJy iter=      414
   3    3   28-FEB-2009  03:48:18     IMAGR     Field    1 Clean flux density=   14.892 MilliJy      414 comps
   3    3   28-FEB-2009  03:48:18     IMAGR     Total Cleaned flux density     =   38.927 MilliJy     1580 comps
   3    2   28-FEB-2009  03:48:21     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:21     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:21     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:22     IMAGR     Field   3 min = -290.7 MicroJy,max =  251.1 MicroJy
   3    2   28-FEB-2009  03:48:23     IMAGR     BGC Clean: using  103 cell beam + residuals >   171.35 MicroJy
   3    2   28-FEB-2009  03:48:23     IMAGR         2621 Residual map points loaded
   3    4   28-FEB-2009  03:48:23     IMAGR     Field    3 min algorithm flux= -188.242 MicroJy iter=      342
   3    3   28-FEB-2009  03:48:23     IMAGR     Field    3 Clean flux density=    8.195 MilliJy      342 comps
   3    3   28-FEB-2009  03:48:23     IMAGR     Total Cleaned flux density     =   39.104 MilliJy     1741 comps
   3    2   28-FEB-2009  03:48:26     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:26     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:27     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:28     IMAGR     Field   6 min = -317.0 MicroJy,max =  260.0 MicroJy
   3    2   28-FEB-2009  03:48:29     IMAGR     BGC Clean: using  103 cell beam + residuals >   170.75 MicroJy
   3    2   28-FEB-2009  03:48:29     IMAGR         1121 Residual map points loaded
   3    4   28-FEB-2009  03:48:29     IMAGR     Field    6 min algorithm flux= -183.565 MicroJy iter=      221
   3    3   28-FEB-2009  03:48:29     IMAGR     Field    6 Clean flux density= -285.747 MicroJy      221 comps
   3    3   28-FEB-2009  03:48:29     IMAGR     Total Cleaned flux density     =   38.775 MilliJy     1876 comps
   3    2   28-FEB-2009  03:48:30     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:30     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:32     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:33     IMAGR     Field   5 min = -281.2 MicroJy,max =  276.5 MicroJy
   3    2   28-FEB-2009  03:48:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   169.06 MicroJy
   3    2   28-FEB-2009  03:48:34     IMAGR         2623 Residual map points loaded
   3    4   28-FEB-2009  03:48:34     IMAGR     Field    5 min algorithm flux=  183.558 MicroJy iter=      497
   3    3   28-FEB-2009  03:48:34     IMAGR     Field    5 Clean flux density=   10.252 MilliJy      497 comps
   3    3   28-FEB-2009  03:48:34     IMAGR     Total Cleaned flux density     =   39.640 MilliJy     2042 comps
   3    2   28-FEB-2009  03:48:36     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:36     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:37     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:38     IMAGR     Field   4 min = -292.4 MicroJy,max =  282.0 MicroJy
   3    2   28-FEB-2009  03:48:38     IMAGR     BGC Clean: using  103 cell beam + residuals >   168.50 MicroJy
   3    2   28-FEB-2009  03:48:38     IMAGR         1336 Residual map points loaded
   3    4   28-FEB-2009  03:48:38     IMAGR     Field    4 min algorithm flux=  181.049 MicroJy iter=      247
   3    3   28-FEB-2009  03:48:38     IMAGR     Field    4 Clean flux density=  980.781 MicroJy      247 comps
   3    3   28-FEB-2009  03:48:38     IMAGR     Total Cleaned flux density     =   40.085 MilliJy     2198 comps
   3    2   28-FEB-2009  03:48:39     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:39     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:40     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:41     IMAGR     Field   7 min = -250.7 MicroJy,max =  316.5 MicroJy
   3    2   28-FEB-2009  03:48:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   167.16 MicroJy
   3    2   28-FEB-2009  03:48:42     IMAGR         2624 Residual map points loaded
   3    4   28-FEB-2009  03:48:42     IMAGR     Field    7 min algorithm flux=  181.074 MicroJy iter=      433
   3    3   28-FEB-2009  03:48:42     IMAGR     Field    7 Clean flux density=    3.596 MilliJy      433 comps
   3    3   28-FEB-2009  03:48:42     IMAGR     Total Cleaned flux density     =   40.091 MilliJy     2386 comps
   3    2   28-FEB-2009  03:48:43     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:43     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:43     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:44     IMAGR     Field   2 min = -277.6 MicroJy,max =  274.4 MicroJy
   3    2   28-FEB-2009  03:48:46     IMAGR     BGC Clean: using  103 cell beam + residuals >   165.77 MicroJy
   3    2   28-FEB-2009  03:48:46     IMAGR         2208 Residual map points loaded
   3    4   28-FEB-2009  03:48:46     IMAGR     Field    2 min algorithm flux=  178.535 MicroJy iter=      420
   3    3   28-FEB-2009  03:48:46     IMAGR     Field    2 Clean flux density=    2.899 MilliJy      420 comps
   3    3   28-FEB-2009  03:48:46     IMAGR     Total Cleaned flux density     =   40.529 MilliJy     2574 comps
   3    2   28-FEB-2009  03:48:47     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:47     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:47     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:48     IMAGR     Field   1 min = -225.4 MicroJy,max =  266.0 MicroJy
   3    2   28-FEB-2009  03:48:49     IMAGR     BGC Clean: using  103 cell beam + residuals >   164.35 MicroJy
   3    2   28-FEB-2009  03:48:49     IMAGR         2387 Residual map points loaded
   3    4   28-FEB-2009  03:48:49     IMAGR     Field    1 min algorithm flux= -176.425 MicroJy iter=      607
   3    3   28-FEB-2009  03:48:49     IMAGR     Field    1 Clean flux density=   15.239 MilliJy      607 comps
   3    3   28-FEB-2009  03:48:49     IMAGR     Total Cleaned flux density     =   40.876 MilliJy     2767 comps
   3    2   28-FEB-2009  03:48:52     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:52     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:52     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:53     IMAGR     Field   3 min = -280.9 MicroJy,max =  239.8 MicroJy
   3    2   28-FEB-2009  03:48:54     IMAGR     BGC Clean: using  103 cell beam + residuals >   163.02 MicroJy
   3    2   28-FEB-2009  03:48:54     IMAGR         2384 Residual map points loaded
   3    4   28-FEB-2009  03:48:54     IMAGR     Field    3 min algorithm flux=  174.964 MicroJy iter=      549
   3    3   28-FEB-2009  03:48:54     IMAGR     Field    3 Clean flux density=    8.208 MilliJy      549 comps
   3    3   28-FEB-2009  03:48:54     IMAGR     Total Cleaned flux density     =   40.889 MilliJy     2974 comps
   3    2   28-FEB-2009  03:48:55     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:48:55     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:48:57     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:48:58     IMAGR     Field   5 min = -260.6 MicroJy,max =  269.4 MicroJy
   3    2   28-FEB-2009  03:48:59     IMAGR     BGC Clean: using  103 cell beam + residuals >   161.65 MicroJy
   3    2   28-FEB-2009  03:48:59     IMAGR         2119 Residual map points loaded
   3    4   28-FEB-2009  03:48:59     IMAGR     Field    5 min algorithm flux= -171.672 MicroJy iter=      685
   3    3   28-FEB-2009  03:48:59     IMAGR     Field    5 Clean flux density=   10.466 MilliJy      685 comps
   3    3   28-FEB-2009  03:48:59     IMAGR     Total Cleaned flux density     =   41.103 MilliJy     3162 comps
   3    2   28-FEB-2009  03:49:00     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:00     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:01     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:02     IMAGR     Field   6 min = -314.4 MicroJy,max =  259.6 MicroJy
   3    2   28-FEB-2009  03:49:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   161.06 MicroJy
   3    2   28-FEB-2009  03:49:03     IMAGR         1554 Residual map points loaded
   3    4   28-FEB-2009  03:49:03     IMAGR     Field    6 min algorithm flux= -171.239 MicroJy iter=      424
   3    3   28-FEB-2009  03:49:03     IMAGR     Field    6 Clean flux density= -407.633 MicroJy      424 comps
   3    3   28-FEB-2009  03:49:03     IMAGR     Total Cleaned flux density     =   40.981 MilliJy     3365 comps
   3    2   28-FEB-2009  03:49:04     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:04     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:05     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:06     IMAGR     Field   7 min = -246.7 MicroJy,max =  300.1 MicroJy
   3    2   28-FEB-2009  03:49:06     IMAGR     BGC Clean: using  103 cell beam + residuals >   159.74 MicroJy
   3    2   28-FEB-2009  03:49:06     IMAGR         2150 Residual map points loaded
   3    4   28-FEB-2009  03:49:06     IMAGR     Field    7 min algorithm flux= -169.677 MicroJy iter=      647
   3    3   28-FEB-2009  03:49:06     IMAGR     Field    7 Clean flux density=    4.016 MilliJy      647 comps
   3    3   28-FEB-2009  03:49:06     IMAGR     Total Cleaned flux density     =   41.400 MilliJy     3579 comps
   3    2   28-FEB-2009  03:49:07     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:07     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:08     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:09     IMAGR     Field   4 min = -289.0 MicroJy,max =  274.5 MicroJy
   3    2   28-FEB-2009  03:49:09     IMAGR     BGC Clean: using  103 cell beam + residuals >   159.05 MicroJy
   3    2   28-FEB-2009  03:49:09     IMAGR         1697 Residual map points loaded
   3    4   28-FEB-2009  03:49:09     IMAGR     Field    4 min algorithm flux=  168.996 MicroJy iter=      476
   3    3   28-FEB-2009  03:49:09     IMAGR     Field    4 Clean flux density=    1.340 MilliJy      476 comps
   3    3   28-FEB-2009  03:49:09     IMAGR     Total Cleaned flux density     =   41.760 MilliJy     3808 comps
   3    2   28-FEB-2009  03:49:12     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:12     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:12     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:13     IMAGR     Field   2 min = -263.5 MicroJy,max =  263.3 MicroJy
   3    2   28-FEB-2009  03:49:14     IMAGR     BGC Clean: using  103 cell beam + residuals >   157.87 MicroJy
   3    2   28-FEB-2009  03:49:14     IMAGR         2038 Residual map points loaded
   3    4   28-FEB-2009  03:49:14     IMAGR     Field    2 min algorithm flux= -167.164 MicroJy iter=      647
   3    3   28-FEB-2009  03:49:14     IMAGR     Field    2 Clean flux density=    3.363 MilliJy      647 comps
   3    3   28-FEB-2009  03:49:14     IMAGR     Total Cleaned flux density     =   42.224 MilliJy     4035 comps
   3    2   28-FEB-2009  03:49:15     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:15     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:15     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:16     IMAGR     Field   1 min = -221.2 MicroJy,max =  253.5 MicroJy
   3    2   28-FEB-2009  03:49:17     IMAGR     BGC Clean: using  103 cell beam + residuals >   156.66 MicroJy
   3    2   28-FEB-2009  03:49:17     IMAGR         2046 Residual map points loaded
   3    4   28-FEB-2009  03:49:17     IMAGR     Field    1 min algorithm flux=  165.224 MicroJy iter=      830
   3    3   28-FEB-2009  03:49:17     IMAGR     Field    1 Clean flux density=   15.564 MilliJy      830 comps
   3    3   28-FEB-2009  03:49:17     IMAGR     Total Cleaned flux density     =   42.550 MilliJy     4258 comps
   3    2   28-FEB-2009  03:49:18     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:18     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:18     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:19     IMAGR     Field   3 min = -278.9 MicroJy,max =  239.9 MicroJy
   3    2   28-FEB-2009  03:49:20     IMAGR     BGC Clean: using  103 cell beam + residuals >   155.59 MicroJy
   3    2   28-FEB-2009  03:49:20     IMAGR         2293 Residual map points loaded
   3    4   28-FEB-2009  03:49:20     IMAGR     Field    3 min algorithm flux= -164.164 MicroJy iter=      786
   3    3   28-FEB-2009  03:49:20     IMAGR     Field    3 Clean flux density=    8.389 MilliJy      786 comps
   3    3   28-FEB-2009  03:49:20     IMAGR     Total Cleaned flux density     =   42.731 MilliJy     4495 comps
   3    2   28-FEB-2009  03:49:21     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:21     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:24     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:25     IMAGR     Field   5 min = -248.5 MicroJy,max =  265.7 MicroJy
   3    2   28-FEB-2009  03:49:26     IMAGR     BGC Clean: using  103 cell beam + residuals >   154.45 MicroJy
   3    2   28-FEB-2009  03:49:26     IMAGR         2001 Residual map points loaded
   3    4   28-FEB-2009  03:49:26     IMAGR     Field    5 min algorithm flux= -162.182 MicroJy iter=      912
   3    3   28-FEB-2009  03:49:26     IMAGR     Field    5 Clean flux density=   10.953 MilliJy      912 comps
   3    3   28-FEB-2009  03:49:26     IMAGR     Total Cleaned flux density     =   43.218 MilliJy     4722 comps
   3    2   28-FEB-2009  03:49:27     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:27     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:28     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:29     IMAGR     Field   6 min = -312.3 MicroJy,max =  260.6 MicroJy
   3    2   28-FEB-2009  03:49:29     IMAGR     BGC Clean: using  103 cell beam + residuals >   153.72 MicroJy
   3    2   28-FEB-2009  03:49:29     IMAGR         1627 Residual map points loaded
   3    4   28-FEB-2009  03:49:29     IMAGR     Field    6 min algorithm flux= -161.650 MicroJy iter=      670
   3    3   28-FEB-2009  03:49:29     IMAGR     Field    6 Clean flux density= -213.267 MicroJy      670 comps
   3    3   28-FEB-2009  03:49:29     IMAGR     Total Cleaned flux density     =   43.412 MilliJy     4968 comps
   3    2   28-FEB-2009  03:49:30     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:30     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:31     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:32     IMAGR     Field   7 min = -241.4 MicroJy,max =  290.6 MicroJy
   3    2   28-FEB-2009  03:49:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   152.64 MicroJy
   3    2   28-FEB-2009  03:49:33     IMAGR         1977 Residual map points loaded
   3    4   28-FEB-2009  03:49:33     IMAGR     Field    7 min algorithm flux=  159.821 MicroJy iter=      881
   3    3   28-FEB-2009  03:49:33     IMAGR     Field    7 Clean flux density=    4.051 MilliJy      881 comps
   3    3   28-FEB-2009  03:49:33     IMAGR     Total Cleaned flux density     =   43.448 MilliJy     5202 comps
   3    2   28-FEB-2009  03:49:34     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:34     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:34     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:35     IMAGR     Field   4 min = -286.6 MicroJy,max =  274.0 MicroJy
   3    2   28-FEB-2009  03:49:36     IMAGR     BGC Clean: using  103 cell beam + residuals >   151.90 MicroJy
   3    2   28-FEB-2009  03:49:36     IMAGR         1693 Residual map points loaded
   3    4   28-FEB-2009  03:49:36     IMAGR     Field    4 min algorithm flux=  159.071 MicroJy iter=      725
   3    3   28-FEB-2009  03:49:36     IMAGR     Field    4 Clean flux density=    1.448 MilliJy      725 comps
   3    3   28-FEB-2009  03:49:36     IMAGR     Total Cleaned flux density     =   43.555 MilliJy     5451 comps
   3    2   28-FEB-2009  03:49:37     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:37     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:37     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:38     IMAGR     Field   2 min = -255.9 MicroJy,max =  253.2 MicroJy
   3    2   28-FEB-2009  03:49:39     IMAGR     BGC Clean: using  103 cell beam + residuals >   150.86 MicroJy
   3    2   28-FEB-2009  03:49:39     IMAGR         1834 Residual map points loaded
   3    4   28-FEB-2009  03:49:39     IMAGR     Field    2 min algorithm flux= -157.837 MicroJy iter=      900
   3    3   28-FEB-2009  03:49:39     IMAGR     Field    2 Clean flux density=    3.405 MilliJy      900 comps
   3    3   28-FEB-2009  03:49:39     IMAGR     Total Cleaned flux density     =   43.597 MilliJy     5704 comps
   3    2   28-FEB-2009  03:49:40     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:40     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:40     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:41     IMAGR     Field   1 min = -216.5 MicroJy,max =  252.3 MicroJy
   3    2   28-FEB-2009  03:49:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   149.75 MicroJy
   3    2   28-FEB-2009  03:49:42     IMAGR         1621 Residual map points loaded
   3    4   28-FEB-2009  03:49:42     IMAGR     Field    1 min algorithm flux=  155.961 MicroJy iter=     1067
   3    3   28-FEB-2009  03:49:42     IMAGR     Field    1 Clean flux density=   15.451 MilliJy     1067 comps
   3    3   28-FEB-2009  03:49:42     IMAGR     Total Cleaned flux density     =   43.484 MilliJy     5941 comps
   3    2   28-FEB-2009  03:49:43     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:43     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:43     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:46     IMAGR     Field   3 min = -266.2 MicroJy,max =  231.5 MicroJy
   3    2   28-FEB-2009  03:49:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   148.67 MicroJy
   3    2   28-FEB-2009  03:49:47     IMAGR         2156 Residual map points loaded
   3    4   28-FEB-2009  03:49:47     IMAGR     Field    3 min algorithm flux=  155.615 MicroJy iter=     1065
   3    3   28-FEB-2009  03:49:47     IMAGR     Field    3 Clean flux density=    8.468 MilliJy     1065 comps
   3    3   28-FEB-2009  03:49:47     IMAGR     Total Cleaned flux density     =   43.562 MilliJy     6220 comps
   3    2   28-FEB-2009  03:49:48     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:48     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:48     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:49     IMAGR     Field   5 min = -246.9 MicroJy,max =  262.1 MicroJy
   3    2   28-FEB-2009  03:49:50     IMAGR     BGC Clean: using  103 cell beam + residuals >   147.64 MicroJy
   3    2   28-FEB-2009  03:49:50     IMAGR         1971 Residual map points loaded
   3    4   28-FEB-2009  03:49:50     IMAGR     Field    5 min algorithm flux=  154.065 MicroJy iter=     1183
   3    3   28-FEB-2009  03:49:50     IMAGR     Field    5 Clean flux density=   11.347 MilliJy     1183 comps
   3    3   28-FEB-2009  03:49:50     IMAGR     Total Cleaned flux density     =   43.956 MilliJy     6491 comps
   3    2   28-FEB-2009  03:49:53     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:53     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:53     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:54     IMAGR     Field   6 min = -308.0 MicroJy,max =  254.4 MicroJy
   3    2   28-FEB-2009  03:49:56     IMAGR     BGC Clean: using  103 cell beam + residuals >   146.90 MicroJy
   3    2   28-FEB-2009  03:49:56     IMAGR         1653 Residual map points loaded
   3    4   28-FEB-2009  03:49:56     IMAGR     Field    6 min algorithm flux= -153.358 MicroJy iter=      955
   3    3   28-FEB-2009  03:49:56     IMAGR     Field    6 Clean flux density= -452.453 MicroJy      955 comps
   3    3   28-FEB-2009  03:49:56     IMAGR     Total Cleaned flux density     =   43.716 MilliJy     6776 comps
   3    2   28-FEB-2009  03:49:57     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:49:57     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:49:58     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:49:59     IMAGR     Field   7 min = -232.1 MicroJy,max =  277.5 MicroJy
   3    2   28-FEB-2009  03:50:01     IMAGR     BGC Clean: using  103 cell beam + residuals >   145.87 MicroJy
   3    2   28-FEB-2009  03:50:01     IMAGR         1733 Residual map points loaded
   3    4   28-FEB-2009  03:50:01     IMAGR     Field    7 min algorithm flux= -151.582 MicroJy iter=     1147
   3    3   28-FEB-2009  03:50:01     IMAGR     Field    7 Clean flux density=    4.178 MilliJy     1147 comps
   3    3   28-FEB-2009  03:50:01     IMAGR     Total Cleaned flux density     =   43.843 MilliJy     7042 comps
   3    2   28-FEB-2009  03:50:03     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:03     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:04     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:05     IMAGR     Field   4 min = -284.5 MicroJy,max =  269.0 MicroJy
   3    2   28-FEB-2009  03:50:06     IMAGR     BGC Clean: using  103 cell beam + residuals >   145.12 MicroJy
   3    2   28-FEB-2009  03:50:06     IMAGR         1743 Residual map points loaded
   3    4   28-FEB-2009  03:50:06     IMAGR     Field    4 min algorithm flux=  151.130 MicroJy iter=     1016
   3    3   28-FEB-2009  03:50:06     IMAGR     Field    4 Clean flux density=    1.805 MilliJy     1016 comps
   3    3   28-FEB-2009  03:50:06     IMAGR     Total Cleaned flux density     =   44.201 MilliJy     7333 comps
   3    2   28-FEB-2009  03:50:07     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:07     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:07     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:08     IMAGR     Field   2 min = -250.8 MicroJy,max =  247.8 MicroJy
   3    2   28-FEB-2009  03:50:09     IMAGR     BGC Clean: using  103 cell beam + residuals >   144.16 MicroJy
   3    2   28-FEB-2009  03:50:09     IMAGR         1669 Residual map points loaded
   3    4   28-FEB-2009  03:50:09     IMAGR     Field    2 min algorithm flux=  149.533 MicroJy iter=     1176
   3    3   28-FEB-2009  03:50:09     IMAGR     Field    2 Clean flux density=    4.174 MilliJy     1176 comps
   3    3   28-FEB-2009  03:50:09     IMAGR     Total Cleaned flux density     =   44.971 MilliJy     7609 comps
   3    2   28-FEB-2009  03:50:10     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:10     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:10     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:11     IMAGR     Field   1 min = -209.1 MicroJy,max =  247.5 MicroJy
   3    2   28-FEB-2009  03:50:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   143.27 MicroJy
   3    2   28-FEB-2009  03:50:12     IMAGR         1454 Residual map points loaded
   3    4   28-FEB-2009  03:50:12     IMAGR     Field    1 min algorithm flux=  148.072 MicroJy iter=     1321
   3    3   28-FEB-2009  03:50:12     IMAGR     Field    1 Clean flux density=   15.821 MilliJy     1321 comps
   3    3   28-FEB-2009  03:50:12     IMAGR     Total Cleaned flux density     =   45.340 MilliJy     7863 comps
   3    2   28-FEB-2009  03:50:13     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:13     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:13     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:14     IMAGR     Field   3 min = -259.5 MicroJy,max =  226.6 MicroJy
   3    2   28-FEB-2009  03:50:15     IMAGR     BGC Clean: using  103 cell beam + residuals >   142.29 MicroJy
   3    2   28-FEB-2009  03:50:15     IMAGR         2074 Residual map points loaded
   3    4   28-FEB-2009  03:50:15     IMAGR     Field    3 min algorithm flux= -148.139 MicroJy iter=     1392
   3    3   28-FEB-2009  03:50:15     IMAGR     Field    3 Clean flux density=    8.298 MilliJy     1392 comps
   3    3   28-FEB-2009  03:50:15     IMAGR     Total Cleaned flux density     =   45.170 MilliJy     8190 comps
   3    2   28-FEB-2009  03:50:16     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:16     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:17     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:18     IMAGR     Field   5 min = -239.2 MicroJy,max =  252.1 MicroJy
   3    2   28-FEB-2009  03:50:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   141.32 MicroJy
   3    2   28-FEB-2009  03:50:18     IMAGR         1894 Residual map points loaded
   3    4   28-FEB-2009  03:50:18     IMAGR     Field    5 min algorithm flux= -146.683 MicroJy iter=     1494
   3    3   28-FEB-2009  03:50:18     IMAGR     Field    5 Clean flux density=   11.541 MilliJy     1494 comps
   3    3   28-FEB-2009  03:50:18     IMAGR     Total Cleaned flux density     =   45.364 MilliJy     8501 comps
   3    2   28-FEB-2009  03:50:19     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:19     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:20     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:21     IMAGR     Field   6 min = -302.8 MicroJy,max =  252.5 MicroJy
   3    2   28-FEB-2009  03:50:21     IMAGR     BGC Clean: using  103 cell beam + residuals >   140.57 MicroJy
   3    2   28-FEB-2009  03:50:23     IMAGR         1739 Residual map points loaded
   3    4   28-FEB-2009  03:50:23     IMAGR     Field    6 min algorithm flux= -145.760 MicroJy iter=     1267
   3    3   28-FEB-2009  03:50:23     IMAGR     Field    6 Clean flux density= -602.084 MicroJy     1267 comps
   3    3   28-FEB-2009  03:50:23     IMAGR     Total Cleaned flux density     =   45.215 MilliJy     8813 comps
   3    2   28-FEB-2009  03:50:25     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:25     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:26     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:27     IMAGR     Field   7 min = -231.9 MicroJy,max =  269.8 MicroJy
   3    2   28-FEB-2009  03:50:27     IMAGR     BGC Clean: using  103 cell beam + residuals >   139.64 MicroJy
   3    2   28-FEB-2009  03:50:29     IMAGR         1570 Residual map points loaded
   3    4   28-FEB-2009  03:50:29     IMAGR     Field    7 min algorithm flux= -143.995 MicroJy iter=     1420
   3    3   28-FEB-2009  03:50:29     IMAGR     Field    7 Clean flux density=    4.337 MilliJy     1420 comps
   3    3   28-FEB-2009  03:50:29     IMAGR     Total Cleaned flux density     =   45.374 MilliJy     9086 comps
   3    2   28-FEB-2009  03:50:32     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:32     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:32     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:33     IMAGR     Field   4 min = -277.9 MicroJy,max =  266.6 MicroJy
   3    2   28-FEB-2009  03:50:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   138.93 MicroJy
   3    2   28-FEB-2009  03:50:34     IMAGR         1771 Residual map points loaded
   3    4   28-FEB-2009  03:50:34     IMAGR     Field    4 min algorithm flux=  143.884 MicroJy iter=     1340
   3    3   28-FEB-2009  03:50:34     IMAGR     Field    4 Clean flux density=    2.004 MilliJy     1340 comps
   3    3   28-FEB-2009  03:50:34     IMAGR     Total Cleaned flux density     =   45.572 MilliJy     9410 comps
   3    2   28-FEB-2009  03:50:35     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:35     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:35     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:36     IMAGR     Field   2 min = -245.8 MicroJy,max =  243.2 MicroJy
   3    2   28-FEB-2009  03:50:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   138.06 MicroJy
   3    2   28-FEB-2009  03:50:37     IMAGR         1526 Residual map points loaded
   3    4   28-FEB-2009  03:50:37     IMAGR     Field    2 min algorithm flux=  142.362 MicroJy iter=     1466
   3    3   28-FEB-2009  03:50:37     IMAGR     Field    2 Clean flux density=    4.457 MilliJy     1466 comps
   3    3   28-FEB-2009  03:50:37     IMAGR     Total Cleaned flux density     =   45.856 MilliJy     9700 comps
   3    2   28-FEB-2009  03:50:38     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:38     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:38     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:39     IMAGR     Field   3 min = -254.3 MicroJy,max =  225.3 MicroJy
   3    2   28-FEB-2009  03:50:40     IMAGR     BGC Clean: using  103 cell beam + residuals >   137.21 MicroJy
   3    2   28-FEB-2009  03:50:40     IMAGR         1810 Residual map points loaded
   3    4   28-FEB-2009  03:50:40     IMAGR     Field    3 min algorithm flux= -141.663 MicroJy iter=     1704
   3    3   28-FEB-2009  03:50:40     IMAGR     Field    3 Clean flux density=    8.500 MilliJy     1704 comps
   3    3   28-FEB-2009  03:50:40     IMAGR     Total Cleaned flux density     =   46.058 MilliJy    10012 comps
   3    2   28-FEB-2009  03:50:41     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:41     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:42     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:43     IMAGR     Field   1 min = -203.9 MicroJy,max =  243.2 MicroJy
   3    2   28-FEB-2009  03:50:43     IMAGR     BGC Clean: using  103 cell beam + residuals >   136.31 MicroJy
   3    2   28-FEB-2009  03:50:43     IMAGR         1407 Residual map points loaded
   3    4   28-FEB-2009  03:50:43     IMAGR     Field    1 min algorithm flux= -140.087 MicroJy iter=     1596
   3    3   28-FEB-2009  03:50:43     IMAGR     Field    1 Clean flux density=   15.695 MilliJy     1596 comps
   3    3   28-FEB-2009  03:50:43     IMAGR     Total Cleaned flux density     =   45.932 MilliJy    10287 comps
   3    2   28-FEB-2009  03:50:46     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:46     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:46     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:47     IMAGR     Field   5 min = -230.6 MicroJy,max =  246.0 MicroJy
   3    2   28-FEB-2009  03:50:48     IMAGR     BGC Clean: using  103 cell beam + residuals >   135.46 MicroJy
   3    2   28-FEB-2009  03:50:49     IMAGR         2087 Residual map points loaded
   3    4   28-FEB-2009  03:50:49     IMAGR     Field    5 min algorithm flux= -140.073 MicroJy iter=     1842
   3    3   28-FEB-2009  03:50:49     IMAGR     Field    5 Clean flux density=   11.678 MilliJy     1842 comps
   3    3   28-FEB-2009  03:50:49     IMAGR     Total Cleaned flux density     =   46.069 MilliJy    10635 comps
   3    2   28-FEB-2009  03:50:52     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:52     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:52     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:53     IMAGR     Field   6 min = -295.5 MicroJy,max =  247.8 MicroJy
   3    2   28-FEB-2009  03:50:54     IMAGR     BGC Clean: using  103 cell beam + residuals >   134.73 MicroJy
   3    2   28-FEB-2009  03:50:54     IMAGR         1772 Residual map points loaded
   3    4   28-FEB-2009  03:50:54     IMAGR     Field    6 min algorithm flux= -139.274 MicroJy iter=     1623
   3    3   28-FEB-2009  03:50:54     IMAGR     Field    6 Clean flux density= -827.984 MicroJy     1623 comps
   3    3   28-FEB-2009  03:50:54     IMAGR     Total Cleaned flux density     =   45.843 MilliJy    10991 comps
   3    2   28-FEB-2009  03:50:55     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:55     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:55     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:50:56     IMAGR     Field   7 min = -227.6 MicroJy,max =  265.6 MicroJy
   3    2   28-FEB-2009  03:50:57     IMAGR     BGC Clean: using  103 cell beam + residuals >   133.92 MicroJy
   3    2   28-FEB-2009  03:50:57     IMAGR         1390 Residual map points loaded
   3    4   28-FEB-2009  03:50:57     IMAGR     Field    7 min algorithm flux= -137.419 MicroJy iter=     1703
   3    3   28-FEB-2009  03:50:57     IMAGR     Field    7 Clean flux density=    4.299 MilliJy     1703 comps
   3    3   28-FEB-2009  03:50:57     IMAGR     Total Cleaned flux density     =   45.805 MilliJy    11274 comps
   3    2   28-FEB-2009  03:50:58     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:50:58     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:50:59     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:00     IMAGR     Field   4 min = -273.9 MicroJy,max =  261.0 MicroJy
   3    2   28-FEB-2009  03:51:00     IMAGR     BGC Clean: using  103 cell beam + residuals >   133.21 MicroJy
   3    2   28-FEB-2009  03:51:00     IMAGR         1743 Residual map points loaded
   3    4   28-FEB-2009  03:51:00     IMAGR     Field    4 min algorithm flux=  137.368 MicroJy iter=     1689
   3    3   28-FEB-2009  03:51:00     IMAGR     Field    4 Clean flux density=    2.298 MilliJy     1689 comps
   3    3   28-FEB-2009  03:51:00     IMAGR     Total Cleaned flux density     =   46.099 MilliJy    11623 comps
   3    2   28-FEB-2009  03:51:01     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:01     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:02     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:03     IMAGR     Field   2 min = -241.2 MicroJy,max =  243.1 MicroJy
   3    2   28-FEB-2009  03:51:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   132.42 MicroJy
   3    2   28-FEB-2009  03:51:04     IMAGR         1309 Residual map points loaded
   3    4   28-FEB-2009  03:51:04     IMAGR     Field    2 min algorithm flux= -135.829 MicroJy iter=     1760
   3    3   28-FEB-2009  03:51:04     IMAGR     Field    2 Clean flux density=    4.510 MilliJy     1760 comps
   3    3   28-FEB-2009  03:51:04     IMAGR     Total Cleaned flux density     =   46.151 MilliJy    11917 comps
   3    2   28-FEB-2009  03:51:05     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:06     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:07     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:08     IMAGR     Field   3 min = -248.5 MicroJy,max =  218.7 MicroJy
   3    2   28-FEB-2009  03:51:08     IMAGR     BGC Clean: using  103 cell beam + residuals >   131.60 MicroJy
   3    2   28-FEB-2009  03:51:09     IMAGR         2053 Residual map points loaded
   3    4   28-FEB-2009  03:51:09     IMAGR     Field    3 min algorithm flux=  135.634 MicroJy iter=     2065
   3    3   28-FEB-2009  03:51:09     IMAGR     Field    3 Clean flux density=    8.674 MilliJy     2065 comps
   3    3   28-FEB-2009  03:51:09     IMAGR     Total Cleaned flux density     =   46.325 MilliJy    12278 comps
   3    2   28-FEB-2009  03:51:10     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:11     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:12     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:13     IMAGR     Field   5 min = -228.3 MicroJy,max =  242.3 MicroJy
   3    2   28-FEB-2009  03:51:14     IMAGR     BGC Clean: using  103 cell beam + residuals >   130.74 MicroJy
   3    2   28-FEB-2009  03:51:14     IMAGR         1689 Residual map points loaded
   3    4   28-FEB-2009  03:51:14     IMAGR     Field    5 min algorithm flux= -134.489 MicroJy iter=     2191
   3    3   28-FEB-2009  03:51:14     IMAGR     Field    5 Clean flux density=   12.076 MilliJy     2191 comps
   3    3   28-FEB-2009  03:51:14     IMAGR     Total Cleaned flux density     =   46.723 MilliJy    12627 comps
   3    2   28-FEB-2009  03:51:15     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:15     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:17     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:17     IMAGR     Field   1 min = -195.5 MicroJy,max =  240.7 MicroJy
   3    2   28-FEB-2009  03:51:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   129.94 MicroJy
   3    2   28-FEB-2009  03:51:18     IMAGR         1404 Residual map points loaded
   3    4   28-FEB-2009  03:51:18     IMAGR     Field    1 min algorithm flux= -133.285 MicroJy iter=     1917
   3    3   28-FEB-2009  03:51:18     IMAGR     Field    1 Clean flux density=   15.949 MilliJy     1917 comps
   3    3   28-FEB-2009  03:51:18     IMAGR     Total Cleaned flux density     =   46.977 MilliJy    12948 comps
   3    2   28-FEB-2009  03:51:19     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:19     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:23     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:24     IMAGR     Field   6 min = -294.2 MicroJy,max =  242.5 MicroJy
   3    2   28-FEB-2009  03:51:25     IMAGR     BGC Clean: using  103 cell beam + residuals >   129.20 MicroJy
   3    2   28-FEB-2009  03:51:25     IMAGR         1754 Residual map points loaded
   3    4   28-FEB-2009  03:51:25     IMAGR     Field    6 min algorithm flux=  132.900 MicroJy iter=     1990
   3    3   28-FEB-2009  03:51:25     IMAGR     Field    6 Clean flux density= -893.875 MicroJy     1990 comps
   3    3   28-FEB-2009  03:51:25     IMAGR     Total Cleaned flux density     =   46.911 MilliJy    13315 comps
   3    2   28-FEB-2009  03:51:26     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:26     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:26     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:27     IMAGR     Field   7 min = -210.6 MicroJy,max =  248.5 MicroJy
   3    2   28-FEB-2009  03:51:29     IMAGR     BGC Clean: using  103 cell beam + residuals >   128.48 MicroJy
   3    2   28-FEB-2009  03:51:29     IMAGR         1272 Residual map points loaded
   3    4   28-FEB-2009  03:51:29     IMAGR     Field    7 min algorithm flux=  131.447 MicroJy iter=     2003
   3    3   28-FEB-2009  03:51:29     IMAGR     Field    7 Clean flux density=    4.110 MilliJy     2003 comps
   3    3   28-FEB-2009  03:51:29     IMAGR     Total Cleaned flux density     =   46.722 MilliJy    13615 comps
   3    2   28-FEB-2009  03:51:30     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:30     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:31     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:32     IMAGR     Field   4 min = -272.0 MicroJy,max =  257.0 MicroJy
   3    2   28-FEB-2009  03:51:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   127.82 MicroJy
   3    2   28-FEB-2009  03:51:34     IMAGR         1869 Residual map points loaded
   3    4   28-FEB-2009  03:51:34     IMAGR     Field    4 min algorithm flux= -131.403 MicroJy iter=     2066
   3    3   28-FEB-2009  03:51:34     IMAGR     Field    4 Clean flux density=    2.392 MilliJy     2066 comps
   3    3   28-FEB-2009  03:51:34     IMAGR     Total Cleaned flux density     =   46.816 MilliJy    13992 comps
   3    2   28-FEB-2009  03:51:37     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:37     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:37     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:38     IMAGR     Field   2 min = -228.3 MicroJy,max =  234.2 MicroJy
   3    2   28-FEB-2009  03:51:39     IMAGR     BGC Clean: using  103 cell beam + residuals >   127.09 MicroJy
   3    2   28-FEB-2009  03:51:39     IMAGR         1166 Residual map points loaded
   3    4   28-FEB-2009  03:51:39     IMAGR     Field    2 min algorithm flux= -129.726 MicroJy iter=     2045
   3    3   28-FEB-2009  03:51:39     IMAGR     Field    2 Clean flux density=    4.365 MilliJy     2045 comps
   3    3   28-FEB-2009  03:51:39     IMAGR     Total Cleaned flux density     =   46.671 MilliJy    14277 comps
   3    2   28-FEB-2009  03:51:40     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:40     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:40     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:41     IMAGR     Field   3 min = -243.0 MicroJy,max =  215.4 MicroJy
   3    2   28-FEB-2009  03:51:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   126.27 MicroJy
   3    2   28-FEB-2009  03:51:42     IMAGR         2142 Residual map points loaded
   3    4   28-FEB-2009  03:51:42     IMAGR     Field    3 min algorithm flux= -129.921 MicroJy iter=     2473
   3    3   28-FEB-2009  03:51:42     IMAGR     Field    3 Clean flux density=    8.830 MilliJy     2473 comps
   3    3   28-FEB-2009  03:51:42     IMAGR     Total Cleaned flux density     =   46.827 MilliJy    14685 comps
   3    2   28-FEB-2009  03:51:44     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:44     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:44     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:45     IMAGR     Field   5 min = -222.4 MicroJy,max =  242.8 MicroJy
   3    2   28-FEB-2009  03:51:46     IMAGR     BGC Clean: using  103 cell beam + residuals >   125.51 MicroJy
   3    2   28-FEB-2009  03:51:46     IMAGR         1857 Residual map points loaded
   3    4   28-FEB-2009  03:51:46     IMAGR     Field    5 min algorithm flux= -128.782 MicroJy iter=     2568
   3    3   28-FEB-2009  03:51:46     IMAGR     Field    5 Clean flux density=   12.037 MilliJy     2568 comps
   3    3   28-FEB-2009  03:51:46     IMAGR     Total Cleaned flux density     =   46.789 MilliJy    15062 comps
   3    2   28-FEB-2009  03:51:47     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:47     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:48     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:48     IMAGR     Field   1 min = -190.3 MicroJy,max =  234.6 MicroJy
   3    2   28-FEB-2009  03:51:49     IMAGR     BGC Clean: using  103 cell beam + residuals >   124.80 MicroJy
   3    2   28-FEB-2009  03:51:49     IMAGR         1165 Residual map points loaded
   3    4   28-FEB-2009  03:51:49     IMAGR     Field    1 min algorithm flux=  127.290 MicroJy iter=     2210
   3    3   28-FEB-2009  03:51:49     IMAGR     Field    1 Clean flux density=   16.167 MilliJy     2210 comps
   3    3   28-FEB-2009  03:51:49     IMAGR     Total Cleaned flux density     =   47.006 MilliJy    15355 comps
   3    2   28-FEB-2009  03:51:50     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:50     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:51     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:52     IMAGR     Field   6 min = -289.8 MicroJy,max =  242.0 MicroJy
   3    2   28-FEB-2009  03:51:52     IMAGR     BGC Clean: using  103 cell beam + residuals >   124.10 MicroJy
   3    2   28-FEB-2009  03:51:52     IMAGR         1825 Residual map points loaded
   3    4   28-FEB-2009  03:51:52     IMAGR     Field    6 min algorithm flux= -127.381 MicroJy iter=     2391
   3    3   28-FEB-2009  03:51:52     IMAGR     Field    6 Clean flux density= -936.198 MicroJy     2391 comps
   3    3   28-FEB-2009  03:51:52     IMAGR     Total Cleaned flux density     =   46.964 MilliJy    15756 comps
   3    2   28-FEB-2009  03:51:53     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:53     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:54     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:55     IMAGR     Field   7 min = -212.9 MicroJy,max =  240.4 MicroJy
   3    2   28-FEB-2009  03:51:55     IMAGR     BGC Clean: using  103 cell beam + residuals >   123.45 MicroJy
   3    2   28-FEB-2009  03:51:55     IMAGR         1194 Residual map points loaded
   3    4   28-FEB-2009  03:51:55     IMAGR     Field    7 min algorithm flux=  125.877 MicroJy iter=     2307
   3    3   28-FEB-2009  03:51:55     IMAGR     Field    7 Clean flux density=    4.698 MilliJy     2307 comps
   3    3   28-FEB-2009  03:51:55     IMAGR     Total Cleaned flux density     =   47.552 MilliJy    16060 comps
   3    2   28-FEB-2009  03:51:58     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:51:58     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:51:58     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:51:59     IMAGR     Field   4 min = -267.9 MicroJy,max =  252.0 MicroJy
   3    2   28-FEB-2009  03:52:00     IMAGR     BGC Clean: using  103 cell beam + residuals >   122.78 MicroJy
   3    2   28-FEB-2009  03:52:00     IMAGR         1895 Residual map points loaded
   3    4   28-FEB-2009  03:52:00     IMAGR     Field    4 min algorithm flux= -125.973 MicroJy iter=     2478
   3    3   28-FEB-2009  03:52:00     IMAGR     Field    4 Clean flux density=    2.544 MilliJy     2478 comps
   3    3   28-FEB-2009  03:52:00     IMAGR     Total Cleaned flux density     =   47.704 MilliJy    16472 comps
   3    2   28-FEB-2009  03:52:01     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:52:01     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:52:02     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:52:03     IMAGR     Field   3 min = -237.7 MicroJy,max =  211.9 MicroJy
   3    2   28-FEB-2009  03:52:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   122.03 MicroJy
   3    2   28-FEB-2009  03:52:03     IMAGR         1795 Residual map points loaded
   3    4   28-FEB-2009  03:52:03     IMAGR     Field    3 min algorithm flux= -125.032 MicroJy iter=     2869
   3    3   28-FEB-2009  03:52:03     IMAGR     Field    3 Clean flux density=    8.652 MilliJy     2869 comps
   3    3   28-FEB-2009  03:52:03     IMAGR     Total Cleaned flux density     =   47.526 MilliJy    16868 comps
   3    2   28-FEB-2009  03:52:04     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:52:04     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:52:05     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:52:06     IMAGR     Field   2 min = -217.2 MicroJy,max =  220.1 MicroJy
   3    2   28-FEB-2009  03:52:06     IMAGR     BGC Clean: using  103 cell beam + residuals >   121.34 MicroJy
   3    2   28-FEB-2009  03:52:06     IMAGR         1321 Residual map points loaded
   3    4   28-FEB-2009  03:52:06     IMAGR     Field    2 min algorithm flux=  123.805 MicroJy iter=     2379
   3    3   28-FEB-2009  03:52:06     IMAGR     Field    2 Clean flux density=    4.716 MilliJy     2379 comps
   3    3   28-FEB-2009  03:52:06     IMAGR     Total Cleaned flux density     =   47.878 MilliJy    17202 comps
   3    2   28-FEB-2009  03:52:08     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:52:08     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:52:10     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:52:11     IMAGR     Field   5 min = -219.2 MicroJy,max =  243.1 MicroJy
   3    2   28-FEB-2009  03:52:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   120.63 MicroJy
   3    2   28-FEB-2009  03:52:12     IMAGR         2038 Residual map points loaded
   3    4   28-FEB-2009  03:52:12     IMAGR     Field    5 min algorithm flux=  123.694 MicroJy iter=     2999
   3    3   28-FEB-2009  03:52:12     IMAGR     Field    5 Clean flux density=   11.974 MilliJy     2999 comps
   3    3   28-FEB-2009  03:52:12     IMAGR     Total Cleaned flux density     =   47.815 MilliJy    17633 comps
   3    2   28-FEB-2009  03:52:13     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:52:13     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:52:15     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:52:16     IMAGR     Field   6 min = -284.3 MicroJy,max =  237.8 MicroJy
   3    2   28-FEB-2009  03:52:17     IMAGR     BGC Clean: using  103 cell beam + residuals >   120.05 MicroJy
   3    2   28-FEB-2009  03:52:17     IMAGR         1611 Residual map points loaded
   3    4   28-FEB-2009  03:52:17     IMAGR     Field    6 min Clean flux    = -123.085 MicroJy iter=     2714
   3    5   28-FEB-2009  03:52:17     IMAGR     Field    6 Clean flux density= -926.656 MicroJy     2714 comps
   3    5   28-FEB-2009  03:52:17     IMAGR     Total Cleaned flux density     =   47.825 MilliJy    17956 comps
   3    2   28-FEB-2009  03:52:18     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:52:18     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:52:19     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:52:19     IMAGR     Field   1 min = -183.2 MicroJy,max =  221.5 MicroJy
   3    2   28-FEB-2009  03:52:20     IMAGR     BGC Clean: using  103 cell beam + residuals >   118.92 MicroJy
   3    2   28-FEB-2009  03:52:20     IMAGR         1374 Residual map points loaded
   3    4   28-FEB-2009  03:52:20     IMAGR     Field    1 min Clean flux    = -123.070 MicroJy iter=     2359
   3    5   28-FEB-2009  03:52:20     IMAGR     Field    1 Clean flux density=   16.003 MilliJy     2359 comps
   3    5   28-FEB-2009  03:52:20     IMAGR     Total Cleaned flux density     =   47.661 MilliJy    18105 comps
   3    2   28-FEB-2009  03:52:21     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:52:21     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:52:22     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:52:23     IMAGR     Field   4 min = -264.9 MicroJy,max =  249.0 MicroJy
   3    2   28-FEB-2009  03:52:23     IMAGR     BGC Clean: using  103 cell beam + residuals >   117.88 MicroJy
   3    2   28-FEB-2009  03:52:23     IMAGR         2355 Residual map points loaded
   3    4   28-FEB-2009  03:52:23     IMAGR     Field    4 min Clean flux    = -123.084 MicroJy iter=     2661
   3    5   28-FEB-2009  03:52:23     IMAGR     Field    4 Clean flux density=    2.878 MilliJy     2661 comps
   3    5   28-FEB-2009  03:52:23     IMAGR     Total Cleaned flux density     =   47.995 MilliJy    18288 comps
   3    2   28-FEB-2009  03:52:26     IMAGR     ALGSTB: All   599 Rows In AP (Max   2059)
   3    2   28-FEB-2009  03:52:26     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  03:52:27     IMAGR     ALGSTB: Pass   1;  588-   0 Cells, with   174390 Pts
   3    4   28-FEB-2009  03:52:28     IMAGR     Field   7 min = -204.6 MicroJy,max =  230.0 MicroJy
   3    2   28-FEB-2009  03:52:28     IMAGR     BGC Clean: using  103 cell beam + residuals >   116.30 MicroJy
   3    2   28-FEB-2009  03:52:28     IMAGR         2534 Residual map points loaded
   3    4   28-FEB-2009  03:52:28     IMAGR     Field    7 min Clean flux    = -123.062 MicroJy iter=     2392
   3    5   28-FEB-2009  03:52:28     IMAGR     Field    7 Clean flux density=    4.660 MilliJy     2392 comps
   3    5   28-FEB-2009  03:52:28     IMAGR     Total Cleaned flux density     =   47.957 MilliJy    18373 comps
   3    2   28-FEB-2009  03:52:28     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:52:28     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:52:35     IMAGR     Field   3 min = -231.1 MicroJy,max =  210.6 MicroJy
   3    2   28-FEB-2009  03:52:35     IMAGR     BGC Clean: using  103 cell beam + residuals >   114.24 MicroJy
   3    2   28-FEB-2009  03:52:35     IMAGR         5004 Residual map points loaded
   3    4   28-FEB-2009  03:52:35     IMAGR     Field    3 min Clean flux    = -123.064 MicroJy iter=     2942
   3    5   28-FEB-2009  03:52:35     IMAGR     Field    3 Clean flux density=    8.665 MilliJy     2942 comps
   3    5   28-FEB-2009  03:52:35     IMAGR     Total Cleaned flux density     =   47.970 MilliJy    18446 comps
   3    2   28-FEB-2009  03:52:35     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:52:35     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:52:41     IMAGR     Field   2 min = -213.9 MicroJy,max =  215.3 MicroJy
   3    2   28-FEB-2009  03:52:41     IMAGR     BGC Clean: using  103 cell beam + residuals >   110.98 MicroJy
   3    2   28-FEB-2009  03:52:41     IMAGR         6878 Residual map points loaded
   3    4   28-FEB-2009  03:52:41     IMAGR     Field    2 min Clean flux    =  123.056 MicroJy iter=     2416
   3    5   28-FEB-2009  03:52:41     IMAGR     Field    2 Clean flux density=    4.754 MilliJy     2416 comps
   3    5   28-FEB-2009  03:52:41     IMAGR     Total Cleaned flux density     =   48.007 MilliJy    18483 comps
   3    2   28-FEB-2009  03:52:41     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:52:41     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:52:44     IMAGR     Field   5 min = -217.9 MicroJy,max =  239.5 MicroJy
   3    2   28-FEB-2009  03:52:44     IMAGR     BGC Clean: using  103 cell beam + residuals >   104.98 MicroJy
   3    2   28-FEB-2009  03:52:44     IMAGR        19974 Residual map points loaded
   3    4   28-FEB-2009  03:52:44     IMAGR     Field    5 min Clean flux    =  123.070 MicroJy iter=     3043
   3    5   28-FEB-2009  03:52:44     IMAGR     Field    5 Clean flux density=   12.023 MilliJy     3043 comps
   3    5   28-FEB-2009  03:52:44     IMAGR     Total Cleaned flux density     =   48.056 MilliJy    18527 comps
   3    2   28-FEB-2009  03:52:44     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:52:44     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:52:47     IMAGR     Peak residual in window 123.085 less than limit 123.086 MicroJy
   3    3   28-FEB-2009  03:52:47     IMAGR     Merging the Clean components files
   3    3   28-FEB-2009  03:52:47     IMAGR     Field    1 compressed from      2359 to      1642 components
   3    3   28-FEB-2009  03:52:47     IMAGR     Field    2 compressed from      2416 to      1712 components
   3    3   28-FEB-2009  03:52:47     IMAGR     Field    3 compressed from      2942 to      2018 components
   3    3   28-FEB-2009  03:52:47     IMAGR     Field    4 compressed from      2661 to      1862 components
   3    3   28-FEB-2009  03:52:47     IMAGR     Field    5 compressed from      3043 to      2117 components
   3    3   28-FEB-2009  03:52:47     IMAGR     Field    6 compressed from      2714 to      1881 components
   3    3   28-FEB-2009  03:52:47     IMAGR     Field    7 compressed from      2392 to      1675 components
   3    4   28-FEB-2009  03:52:48     IMAGR     Field   1 min = -184.7 MicroJy,max =  217.6 MicroJy
   3    4   28-FEB-2009  03:52:48     IMAGR     Field   2 min = -213.5 MicroJy,max =  215.2 MicroJy
   3    4   28-FEB-2009  03:52:49     IMAGR     Field   3 min = -230.9 MicroJy,max =  210.4 MicroJy
   3    4   28-FEB-2009  03:52:50     IMAGR     Field   4 min = -262.6 MicroJy,max =  246.7 MicroJy
   3    4   28-FEB-2009  03:52:51     IMAGR     Field   5 min = -217.9 MicroJy,max =  239.7 MicroJy
   3    4   28-FEB-2009  03:52:52     IMAGR     Field   6 min = -282.8 MicroJy,max =  235.6 MicroJy
   3    4   28-FEB-2009  03:52:53     IMAGR     Field   7 min = -203.6 MicroJy,max =  230.2 MicroJy
   3    3   28-FEB-2009  03:52:53     IMAGR     Restoring Clean components
   3    3   28-FEB-2009  03:53:10     IMAGR     Restoring overlapped Clean components
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore -12.278 Nano Jy (   130 CCs) from field   1 to field   2
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore   8.230 MilliJy (   268 CCs) from field   1 to field   3
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore   1.606 MilliJy (   223 CCs) from field   1 to field   4
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore   2.542 MilliJy (   263 CCs) from field   1 to field   5
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore   2.135 MilliJy (   206 CCs) from field   1 to field   6
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore 577.483 MicroJy (   138 CCs) from field   1 to field   7
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore-341.710 MicroJy (   156 CCs) from field   2 to field   1
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore 406.939 MicroJy (   228 CCs) from field   2 to field   3
   3    3   28-FEB-2009  03:53:10     IMAGR     Restore 995.028 Nano Jy (   199 CCs) from field   2 to field   4
   3    3   28-FEB-2009  03:53:11     IMAGR     Restore   7.289 MilliJy (   270 CCs) from field   3 to field   1
   3    3   28-FEB-2009  03:53:11     IMAGR     Restore -30.359 MicroJy (   173 CCs) from field   3 to field   2
   3    3   28-FEB-2009  03:53:11     IMAGR     Restore   1.684 MilliJy (   213 CCs) from field   3 to field   5
   3    3   28-FEB-2009  03:53:12     IMAGR     Restore 868.653 MicroJy (   203 CCs) from field   4 to field   1
   3    3   28-FEB-2009  03:53:12     IMAGR     Restore 784.861 MicroJy (   200 CCs) from field   4 to field   2
   3    3   28-FEB-2009  03:53:12     IMAGR     Restore 558.316 MicroJy (   130 CCs) from field   4 to field   6
   3    3   28-FEB-2009  03:53:12     IMAGR     Restore   5.168 MilliJy (   257 CCs) from field   5 to field   1
   3    3   28-FEB-2009  03:53:12     IMAGR     Restore   3.264 MilliJy (   206 CCs) from field   5 to field   3
   3    3   28-FEB-2009  03:53:12     IMAGR     Restore-370.424 MicroJy (   201 CCs) from field   5 to field   7
   3    3   28-FEB-2009  03:53:12     IMAGR     Restore -73.340 MicroJy (   179 CCs) from field   6 to field   1
   3    3   28-FEB-2009  03:53:12     IMAGR     Restore 100.779 MicroJy (   149 CCs) from field   6 to field   4
   3    3   28-FEB-2009  03:53:13     IMAGR     Restore  -1.182 MilliJy (   202 CCs) from field   6 to field   7
   3    3   28-FEB-2009  03:53:13     IMAGR     Restore 312.874 MicroJy (   117 CCs) from field   7 to field   1
   3    3   28-FEB-2009  03:53:13     IMAGR     Restore 513.464 MicroJy (   208 CCs) from field   7 to field   5
   3    3   28-FEB-2009  03:53:13     IMAGR     Restore 503.284 MicroJy (   172 CCs) from field   7 to field   6
   3    3   28-FEB-2009  03:53:13     IMAGR     Checking image max/min
   3    3   28-FEB-2009  03:53:13     IMAGR     Field    1 final Clean flux    29.226 MilliJy
   3    3   28-FEB-2009  03:53:13     IMAGR     Field    2 final Clean flux     5.508 MilliJy
   3    3   28-FEB-2009  03:53:13     IMAGR     Field    3 final Clean flux    20.565 MilliJy
   3    3   28-FEB-2009  03:53:13     IMAGR     Field    4 final Clean flux     4.586 MilliJy
   3    3   28-FEB-2009  03:53:13     IMAGR     Field    5 final Clean flux    16.763 MilliJy
   3    3   28-FEB-2009  03:53:13     IMAGR     Field    6 final Clean flux     2.270 MilliJy
   3    3   28-FEB-2009  03:53:13     IMAGR     Field    7 final Clean flux     3.685 MilliJy
   3    6   28-FEB-2009  03:53:13     IMAGR     Deleting UV work file:
   3    4   28-FEB-2009  03:53:13     IMAGR     Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  03:53:13     IMAGR     Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  03:53:13     IMAGR     Destroyed UV image file: catno=     22 disk= 1
   3    3   28-FEB-2009  03:53:13     IMAGR     Appears to have ended successfully
   3    5   28-FEB-2009  03:53:13     IMAGR     vlbacald-b   31DEC07 TST: Cpu=     347.3  Real=     452
   3    2   28-FEB-2009  03:53:13     AIPS      Resumes
   3    3   28-FEB-2009  03:53:13     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:53:13     AIPS      rm -f /tmp/SETFC@NGC6712_LBAND1.0-1 >& /dev/null
   3    5   28-FEB-2009  03:53:14     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:53:17     UVPLT     GFINIS: number records used   32831
   3    2   28-FEB-2009  03:53:17     UVPLT     PLTUV:     697560 Points plotted
   3    2   28-FEB-2009  03:53:17     UVPLT     PLTUV: Plot file version    1  created.
   3    3   28-FEB-2009  03:53:17     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:53:17     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.8  Real=       3
   3    2   28-FEB-2009  03:53:17     AIPS      Resumes
   3    5   28-FEB-2009  03:53:17     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:53:18     UVPLT     GFINIS: number records used   16418
   3    2   28-FEB-2009  03:53:18     UVPLT     PLTUV:     348780 Points plotted
   3    2   28-FEB-2009  03:53:18     UVPLT     PLTUV: Plot file version    2  created.
   3    3   28-FEB-2009  03:53:18     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:53:18     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.5  Real=       1
   3    2   28-FEB-2009  03:53:18     AIPS      Resumes
   3    5   28-FEB-2009  03:53:18     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:53:19     UVPLT     GFINIS: number records used   16417
   3    2   28-FEB-2009  03:53:19     UVPLT     PLTUV:     348780 Points plotted
   3    2   28-FEB-2009  03:53:19     UVPLT     PLTUV: Plot file version    3  created.
   3    3   28-FEB-2009  03:53:19     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:53:19     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.5  Real=       1
   3    2   28-FEB-2009  03:53:19     AIPS      Resumes
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed MA image file: catno=     23 disk= 1
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed MA image file: catno=     24 disk= 1
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed MA image file: catno=     25 disk= 1
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed MA image file: catno=     26 disk= 1
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed MA image file: catno=     27 disk= 1
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed MA image file: catno=     28 disk= 1
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:53:19     AIPS      Destroyed MA image file: catno=     29 disk= 1
   3    2   28-FEB-2009  03:53:19     AIPS      Disk  1 in-CNO   30 renumbered as CNO   22
   3    2   28-FEB-2009  03:53:19     AIPS      Disk  1 in-CNO   31 renumbered as CNO   23
   3    2   28-FEB-2009  03:53:19     AIPS      Disk  1 in-CNO   32 renumbered as CNO   24
   3    2   28-FEB-2009  03:53:19     AIPS      Disk  1 in-CNO   33 renumbered as CNO   25
   3    2   28-FEB-2009  03:53:19     AIPS      Disk  1 in-CNO   34 renumbered as CNO   26
   3    2   28-FEB-2009  03:53:19     AIPS      Disk  1 in-CNO   35 renumbered as CNO   27
   3    2   28-FEB-2009  03:53:19     AIPS      Disk  1 in-CNO   36 renumbered as CNO   28
   3    5   28-FEB-2009  03:53:19     AIPS      ' '
   3    5   28-FEB-2009  03:53:19     AIPS      'ESTIMATED RMS:'     '0.0439 MILLI JANSKY'
   3    3   28-FEB-2009  03:53:19     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:53:19     AIPS      rm -f /tmp/SETFC@2136+141_LBAND1.0-1 >& /dev/null
   3    2   28-FEB-2009  03:53:19     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:53:19     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:53:19     SETFC     Found 2136+141    .LBAND1.00001 Disk  1 slot     6
   3    4   28-FEB-2009  03:53:19     SETFC     SETCEL: max baseline, W = 1.0972E+05 4.5616E+04 wavelengths
   3    4   28-FEB-2009  03:53:19     SETFC     SETCEL: max field radius 5.5758E+02 arc seconds
   3    4   28-FEB-2009  03:53:19     SETFC     SETCEL: recommends IMSIZE  1780 CELLSIZE   0.626634
   3    4   28-FEB-2009  03:53:19     SETFC     SETCEL: returns    IMSIZE  2048 CELLSIZE   0.549879
   3    2   28-FEB-2009  03:53:19     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:53:19     SETFC     ZTXOP2: /tmp/SETFC@2136+141_LBAND1.0-1
   3    4   28-FEB-2009  03:53:19     SETFC     FLYEYE added   7 fields to BOXFILE to  0.265 deg
   3    4   28-FEB-2009  03:53:19     SETFC     First field number written was   1
   3    4   28-FEB-2009  03:53:19     SETFC     Highest field number written was   7
   3    2   28-FEB-2009  03:53:19     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:53:19     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:53:19     SETFC     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  03:53:19     AIPS      Resumes
   3    3   28-FEB-2009  03:53:19     AIPS      SETFC    was not found to be running
   3    5   28-FEB-2009  03:53:19     AIPS      'SEARCHING FOR NVSS SOURCES'
   3    2   28-FEB-2009  03:53:19     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:53:19     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:53:19     SETFC     Found 2136+141    .LBAND1.00001 Disk  1 slot     6
   3    2   28-FEB-2009  03:53:19     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:53:19     SETFC     ZTXOP2: /tmp/SETFC@2136+141_LBAND1.0-1
   3    3   28-FEB-2009  03:53:19     SETFC     Searching catalog between  0.27 and   0.77 degrees radius
   3    2   28-FEB-2009  03:53:19     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:53:19     SETFC     ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030
   3    3   28-FEB-2009  03:53:21     SETFC     Field       RA            Dec             Flux     Beam    Sep
   3    3   28-FEB-2009  03:53:21     SETFC         8    21:38:19.22    14:35:52.4        0.037    0.444   0.266
   3    4   28-FEB-2009  03:53:21     SETFC     Add NVSS: wrote   1 fields to BOXFILE
   3    3   28-FEB-2009  03:53:21     SETFC     The Sun is 133.5 deg away - ignoring
   3    4   28-FEB-2009  03:53:21     SETFC     First field number written was   8
   3    4   28-FEB-2009  03:53:21     SETFC     Highest field number written was   8
   3    2   28-FEB-2009  03:53:21     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:53:21     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:53:21     SETFC     vlbacald-b   31DEC07 TST: Cpu=       1.4  Real=       2
   3    2   28-FEB-2009  03:53:21     AIPS      Resumes
   3    3   28-FEB-2009  03:53:21     AIPS      SETFC    was not found to be running
   3    3   28-FEB-2009  03:53:23     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:53:23     AIPS      echo "SETFC FILE FOR SOURCE 2136+141 BELOW IS:" >> $ARUN/AM0308_
   3    3   28-FEB-2009  03:53:23     AIPS      1990JUL15_1.1.log
   3    3   28-FEB-2009  03:53:23     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:53:23     AIPS      cat /tmp/SETFC@2136+141_LBAND1.0-1 >> $ARUN/AM0308_1990JUL15_1.1
   3    3   28-FEB-2009  03:53:23     AIPS      .log
   3    5   28-FEB-2009  03:53:23     AIPS      '    NOW STARTING WITH SOURCE  :4  =2136+141'
   3    5   28-FEB-2009  03:53:23     AIPS      ' '
   3    5   28-FEB-2009  03:53:23     IMAGR     Task IMAGR  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:53:23     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:53:23     IMAGR     ZTXOP2: /tmp/SETFC@2136+141_LBAND1.0-1
   3    3   28-FEB-2009  03:53:23     IMAGR     FIELDF: Final field parameters and # read are:
   3    3   28-FEB-2009  03:53:23     IMAGR     Field    1 2036 2036  5.7944E-03  1.6926E-03          0
   3    3   28-FEB-2009  03:53:23     IMAGR     Field    2 2036 2036  5.7944E-03 -9.5580E+02          0
   3    3   28-FEB-2009  03:53:23     IMAGR     Field    3 2036 2036 -8.2729E+02 -4.7830E+02          0
   3    3   28-FEB-2009  03:53:23     IMAGR     Field    4 2036 2036  8.2715E+02 -4.7830E+02          0
   3    3   28-FEB-2009  03:53:23     IMAGR     Field    5 2036 2036 -8.2816E+02  4.7740E+02          0
   3    3   28-FEB-2009  03:53:23     IMAGR     Field    6 2036 2036  8.2817E+02  4.7740E+02          0
   3    3   28-FEB-2009  03:53:23     IMAGR     Field    7 2036 2036  5.7944E-03  9.5580E+02          0
   3    3   28-FEB-2009  03:53:23     IMAGR     Field    8  246  246 -6.1153E+02  7.3640E+02          0
   3    2   28-FEB-2009  03:53:23     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:53:23     IMAGR     ZTXOP2: /tmp/SETFC@2136+141_LBAND1.0-1
   3    7   28-FEB-2009  03:53:23     IMAGR     WINDF: Number of clean boxes/field read as follows:
   3    3   28-FEB-2009  03:53:23     IMAGR     Field 01:   1  Field 02:   1  Field 03:   1  Field 04:   1
   3    3   28-FEB-2009  03:53:23     IMAGR     Field 05:   1  Field 06:   1  Field 07:   1  Field 08:   1
   3    2   28-FEB-2009  03:53:23     IMAGR     Create 2136+141    .IMAGR .   1 (UV)  on disk  1  cno   29
   3    4   28-FEB-2009  03:53:23     IMAGR     Beginning channel    1 through    1 with  2 IFs
   3    3   28-FEB-2009  03:53:23     IMAGR     IMACPY: Copied    38075 visibilities to be imaged
   3    2   28-FEB-2009  03:53:23     IMAGR     QINIT: did a GET  of   20480 Kwords, OFF        -91778381
   3    2   28-FEB-2009  03:53:23     IMAGR     UVWAIT: begin finding uniform weights
   3    2   28-FEB-2009  03:53:24     IMAGR     UVWAIT: Average grid weight  1.544E+04
   3    2   28-FEB-2009  03:53:24     IMAGR     UVWAIT: Adding temperance S  3.088E+03
   3    2   28-FEB-2009  03:53:24     IMAGR     UVWAIT: begin applying uniform or other weights
   3    4   28-FEB-2009  03:53:24     IMAGR     UVWAIT: Sum of weights in  9.339E+07 and out  1.311E+08
   3    4   28-FEB-2009  03:53:24     IMAGR     UVWAIT: Noise is increased by a factor 1.147 due to weighting
   3    4   28-FEB-2009  03:53:24     IMAGR     UVWAIT: Average summed weight  1.544E+04 over      74200 vis
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .IBM001.   1 (MA)  on disk  1  cno   30
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .IBM002.   1 (MA)  on disk  1  cno   31
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .IBM003.   1 (MA)  on disk  1  cno   32
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .IBM004.   1 (MA)  on disk  1  cno   33
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .IBM005.   1 (MA)  on disk  1  cno   34
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .IBM006.   1 (MA)  on disk  1  cno   35
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .IBM007.   1 (MA)  on disk  1  cno   36
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .IBM008.   1 (MA)  on disk  1  cno   37
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .ICL001.   1 (MA)  on disk  1  cno   38
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .ICL002.   1 (MA)  on disk  1  cno   39
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .ICL003.   1 (MA)  on disk  1  cno   40
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .ICL004.   1 (MA)  on disk  1  cno   41
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .ICL005.   1 (MA)  on disk  1  cno   42
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .ICL006.   1 (MA)  on disk  1  cno   43
   3    2   28-FEB-2009  03:53:24     IMAGR     Create 2136+141    .ICL007.   1 (MA)  on disk  1  cno   44
   3    2   28-FEB-2009  03:53:25     IMAGR     Create 2136+141    .ICL008.   1 (MA)  on disk  1  cno   45
   3    2   28-FEB-2009  03:53:26     IMAGR     GRDFLT: X and Y convolution type = SPHEROIDAL
   3    2   28-FEB-2009  03:53:26     IMAGR     GRDFLT: X and Y parms =  3.0000  1.0000
   3    2   28-FEB-2009  03:53:26     IMAGR     GRDFLT: convolution function sampled every 1/100 of a cell
   3    2   28-FEB-2009  03:53:26     IMAGR     GRDMEM: Ave    2 Channels; 1.464900E+09 to 1.514900E+09 Hz
   3    4   28-FEB-2009  03:53:26     IMAGR     Field   1 Sum of gridding weights =  1.39135E+09
   3    4   28-FEB-2009  03:53:27     IMAGR     Field   1 Beam min =  -75.1 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:53:27     IMAGR     Field   1 fit FWHM =    3.847 x    1.656      arcsec, PA=   85.5
   3    4   28-FEB-2009  03:53:27     IMAGR     Field   2 Sum of gridding weights =  1.39136E+09
   3    4   28-FEB-2009  03:53:27     IMAGR     Field   2 Beam min =  -75.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:53:27     IMAGR     Field   2 fit FWHM =    3.847 x    1.659      arcsec, PA=   85.5
   3    4   28-FEB-2009  03:53:28     IMAGR     Field   3 Sum of gridding weights =  1.39137E+09
   3    4   28-FEB-2009  03:53:28     IMAGR     Field   3 Beam min =  -75.5 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:53:28     IMAGR     Field   3 fit FWHM =    3.848 x    1.657      arcsec, PA=   85.4
   3    4   28-FEB-2009  03:53:28     IMAGR     Field   4 Sum of gridding weights =  1.39137E+09
   3    4   28-FEB-2009  03:53:29     IMAGR     Field   4 Beam min =  -75.4 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:53:29     IMAGR     Field   4 fit FWHM =    3.847 x    1.658      arcsec, PA=   85.7
   3    4   28-FEB-2009  03:53:29     IMAGR     Field   5 Sum of gridding weights =  1.39137E+09
   3    4   28-FEB-2009  03:53:31     IMAGR     Field   5 Beam min =  -74.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:53:31     IMAGR     Field   5 fit FWHM =    3.848 x    1.654      arcsec, PA=   85.4
   3    4   28-FEB-2009  03:53:31     IMAGR     Field   6 Sum of gridding weights =  1.39137E+09
   3    4   28-FEB-2009  03:53:32     IMAGR     Field   6 Beam min =  -74.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:53:32     IMAGR     Field   6 fit FWHM =    3.847 x    1.655      arcsec, PA=   85.7
   3    4   28-FEB-2009  03:53:32     IMAGR     Field   7 Sum of gridding weights =  1.39136E+09
   3    4   28-FEB-2009  03:53:32     IMAGR     Field   7 Beam min =  -74.4 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:53:32     IMAGR     Field   7 fit FWHM =    3.847 x    1.653      arcsec, PA=   85.6
   3    4   28-FEB-2009  03:53:32     IMAGR     Field   8 Sum of gridding weights =  1.39137E+09
   3    4   28-FEB-2009  03:53:32     IMAGR     Field   8 Beam min =  -74.6 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:53:32     IMAGR     Field   8 fit FWHM =    3.848 x    1.654      arcsec, PA=   85.4
   3    4   28-FEB-2009  03:53:32     IMAGR     CLBHIS: minimum component 0.300 of current peak
   3    4   28-FEB-2009  03:53:37     IMAGR     Field   1 min =  -87.4 MilliJy,max =    1.2      Jy
   3    4   28-FEB-2009  03:53:38     IMAGR     Field   2 min =  -52.6 MilliJy,max =   62.1 MilliJy
   3    4   28-FEB-2009  03:53:39     IMAGR     Field   3 min =  -66.8 MilliJy,max =   56.2 MilliJy
   3    4   28-FEB-2009  03:53:39     IMAGR     Field   4 min =  -64.7 MilliJy,max =   56.8 MilliJy
   3    4   28-FEB-2009  03:53:40     IMAGR     Field   5 min =  -67.5 MilliJy,max =   57.8 MilliJy
   3    4   28-FEB-2009  03:53:41     IMAGR     Field   6 min =  -65.1 MilliJy,max =   55.6 MilliJy
   3    4   28-FEB-2009  03:53:41     IMAGR     Field   7 min =  -50.7 MilliJy,max =   64.3 MilliJy
   3    4   28-FEB-2009  03:53:41     IMAGR     Field   8 min =  -27.4 MilliJy,max =   47.3 MilliJy
   3    2   28-FEB-2009  03:53:43     IMAGR     BGC Clean: using 2043 cell beam + residuals >    41.75 MilliJy
   3    2   28-FEB-2009  03:53:43     IMAGR         3905 Residual map points loaded
   3    4   28-FEB-2009  03:53:43     IMAGR     Field    1 min allowed flux  =  327.149 MilliJy iter=       13
   3    3   28-FEB-2009  03:53:43     IMAGR     Field    1 Clean flux density=  863.904 MilliJy       13 comps
   3    3   28-FEB-2009  03:53:43     IMAGR     Total Cleaned flux density     =  863.904 MilliJy       13 comps
   3    4   28-FEB-2009  03:53:44     IMAGR     SETDO3: imaging done with multiple tangent planes
   3    2   28-FEB-2009  03:53:44     IMAGR     VISDFT: Begin DFT component subtraction
   3    2   28-FEB-2009  03:53:44     IMAGR     VISDFT: Model components of type Point
   3    3   28-FEB-2009  03:53:44     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:53:50     IMAGR     Field   1 min =  -22.5 MilliJy,max =  294.4 MilliJy
   3    2   28-FEB-2009  03:53:50     IMAGR     BGC Clean: using  103 cell beam + residuals >    29.74 MilliJy
   3    2   28-FEB-2009  03:53:51     IMAGR          167 Residual map points loaded
   3    4   28-FEB-2009  03:53:51     IMAGR     Field    1 min allowed flux  =   83.157 MilliJy iter=       26
   3    3   28-FEB-2009  03:53:51     IMAGR     Field    1 Clean flux density=    1.083      Jy       26 comps
   3    3   28-FEB-2009  03:53:51     IMAGR     Total Cleaned flux density     =    1.083      Jy       26 comps
   3    2   28-FEB-2009  03:53:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:53:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:53:51     IMAGR     Field   1 min =   -6.0 MilliJy,max =   74.8 MilliJy
   3    2   28-FEB-2009  03:53:52     IMAGR     BGC Clean: using  103 cell beam + residuals >    29.71 MilliJy
   3    2   28-FEB-2009  03:53:53     IMAGR           21 Residual map points loaded
   3    4   28-FEB-2009  03:53:55     IMAGR     Field    1 min algorithm flux=   35.796 MilliJy iter=       34
   3    3   28-FEB-2009  03:53:55     IMAGR     Field    1 Clean flux density=    1.126      Jy       34 comps
   3    3   28-FEB-2009  03:53:55     IMAGR     Total Cleaned flux density     =    1.126      Jy       34 comps
   3    2   28-FEB-2009  03:53:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:53:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:53:56     IMAGR     Field   7 min =   -1.7 MilliJy,max =    1.8 MilliJy
   3    3   28-FEB-2009  03:53:56     IMAGR     TRY ANOTHER FIELD: this is  1.712E-03 < Second best  5.934E-02
   3    4   28-FEB-2009  03:53:56     IMAGR     Field   2 min =   -1.4 MilliJy,max =    2.5 MilliJy
   3    3   28-FEB-2009  03:53:56     IMAGR     TRY ANOTHER FIELD: this is  1.867E-03 < Second best  4.530E-02
   3    4   28-FEB-2009  03:53:57     IMAGR     Field   5 min =   -1.9 MilliJy,max =    1.6 MilliJy
   3    3   28-FEB-2009  03:53:57     IMAGR     TRY ANOTHER FIELD: this is  1.426E-03 < Second best  4.518E-02
   3    4   28-FEB-2009  03:53:57     IMAGR     Field   8 min = -987.9 MicroJy,max =    1.5 MilliJy
   3    3   28-FEB-2009  03:53:57     IMAGR     TRY ANOTHER FIELD: this is  1.408E-03 < Second best  4.289E-02
   3    4   28-FEB-2009  03:53:58     IMAGR     Field   4 min =   -1.9 MilliJy,max =    2.8 MilliJy
   3    3   28-FEB-2009  03:53:58     IMAGR     TRY ANOTHER FIELD: this is  2.688E-03 < Second best  4.275E-02
   3    4   28-FEB-2009  03:53:59     IMAGR     Field   6 min =   -1.9 MilliJy,max =    1.7 MilliJy
   3    3   28-FEB-2009  03:53:59     IMAGR     TRY ANOTHER FIELD: this is  1.389E-03 < Second best  4.010E-02
   3    4   28-FEB-2009  03:54:00     IMAGR     Field   3 min =   -2.0 MilliJy,max =    1.6 MilliJy
   3    3   28-FEB-2009  03:54:00     IMAGR     TRY ANOTHER FIELD: this is  1.261E-03 < Second best  3.402E-02
   3    4   28-FEB-2009  03:54:00     IMAGR     Field   1 min =   -2.8 MilliJy,max =   32.2 MilliJy
   3    2   28-FEB-2009  03:54:01     IMAGR     BGC Clean: using 2043 cell beam + residuals >     1.29 MilliJy
   3    2   28-FEB-2009  03:54:01     IMAGR         3736 Residual map points loaded
   3    4   28-FEB-2009  03:54:01     IMAGR     Field    1 min allowed flux  =    9.346 MilliJy iter=       47
   3    3   28-FEB-2009  03:54:01     IMAGR     Field    1 Clean flux density=    1.150      Jy       47 comps
   3    3   28-FEB-2009  03:54:01     IMAGR     Total Cleaned flux density     =    1.150      Jy       47 comps
   3    2   28-FEB-2009  03:54:01     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:01     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:02     IMAGR     Field   1 min = -971.1 MicroJy,max =    8.4 MilliJy
   3    2   28-FEB-2009  03:54:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   942.13 MicroJy
   3    2   28-FEB-2009  03:54:04     IMAGR          436 Residual map points loaded
   3    4   28-FEB-2009  03:54:04     IMAGR     Field    1 min allowed flux  =    2.390 MilliJy iter=       62
   3    3   28-FEB-2009  03:54:04     IMAGR     Field    1 Clean flux density=    1.157      Jy       62 comps
   3    3   28-FEB-2009  03:54:04     IMAGR     Total Cleaned flux density     =    1.157      Jy       62 comps
   3    2   28-FEB-2009  03:54:04     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:04     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:05     IMAGR     Field   4 min = -743.0 MicroJy,max =    2.3 MilliJy
   3    2   28-FEB-2009  03:54:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   936.88 MicroJy
   3    2   28-FEB-2009  03:54:07     IMAGR          177 Residual map points loaded
   3    4   28-FEB-2009  03:54:07     IMAGR     Field    4 min algorithm flux=    1.194 MilliJy iter=       20
   3    3   28-FEB-2009  03:54:07     IMAGR     Field    4 Clean flux density=    3.146 MilliJy       20 comps
   3    3   28-FEB-2009  03:54:07     IMAGR     Total Cleaned flux density     =    1.161      Jy       82 comps
   3    2   28-FEB-2009  03:54:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:08     IMAGR     Field   1 min = -751.1 MicroJy,max =    2.4 MilliJy
   3    2   28-FEB-2009  03:54:08     IMAGR     BGC Clean: using  103 cell beam + residuals >   934.74 MicroJy
   3    2   28-FEB-2009  03:54:08     IMAGR          122 Residual map points loaded
   3    4   28-FEB-2009  03:54:08     IMAGR     Field    1 min algorithm flux=    1.090 MilliJy iter=       76
   3    3   28-FEB-2009  03:54:08     IMAGR     Field    1 Clean flux density=    1.160      Jy       76 comps
   3    3   28-FEB-2009  03:54:08     IMAGR     Total Cleaned flux density     =    1.163      Jy       96 comps
   3    2   28-FEB-2009  03:54:08     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:08     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:09     IMAGR     Field   2 min = -678.0 MicroJy,max =    1.1 MilliJy
   3    3   28-FEB-2009  03:54:09     IMAGR     TRY ANOTHER FIELD: this is  9.886E-04 < Second best  1.712E-03
   3    4   28-FEB-2009  03:54:10     IMAGR     Field   7 min = -693.3 MicroJy,max =    1.1 MilliJy
   3    3   28-FEB-2009  03:54:10     IMAGR     TRY ANOTHER FIELD: this is  9.944E-04 < Second best  1.426E-03
   3    4   28-FEB-2009  03:54:11     IMAGR     Field   5 min = -690.0 MicroJy,max =  671.0 MicroJy
   3    3   28-FEB-2009  03:54:11     IMAGR     TRY ANOTHER FIELD: this is  6.097E-04 < Second best  1.408E-03
   3    4   28-FEB-2009  03:54:11     IMAGR     Field   8 min = -607.3 MicroJy,max =  543.4 MicroJy
   3    3   28-FEB-2009  03:54:11     IMAGR     TRY ANOTHER FIELD: this is  4.854E-04 < Second best  1.389E-03
   3    4   28-FEB-2009  03:54:11     IMAGR     Field   6 min = -732.7 MicroJy,max =  711.6 MicroJy
   3    3   28-FEB-2009  03:54:11     IMAGR     TRY ANOTHER FIELD: this is  6.231E-04 < Second best  1.261E-03
   3    4   28-FEB-2009  03:54:12     IMAGR     Field   3 min = -775.3 MicroJy,max =  727.0 MicroJy
   3    3   28-FEB-2009  03:54:12     IMAGR     TRY ANOTHER FIELD: this is  6.957E-04 < Second best  1.137E-03
   3    4   28-FEB-2009  03:54:13     IMAGR     Field   4 min = -700.2 MicroJy,max =    1.1 MilliJy
   3    2   28-FEB-2009  03:54:16     IMAGR     BGC Clean: using  103 cell beam + residuals >   450.94 MicroJy
   3    2   28-FEB-2009  03:54:16     IMAGR         2177 Residual map points loaded
   3    4   28-FEB-2009  03:54:16     IMAGR     Field    4 min algorithm flux= -602.158 MicroJy iter=       58
   3    3   28-FEB-2009  03:54:16     IMAGR     Field    4 Clean flux density=    5.209 MilliJy       58 comps
   3    3   28-FEB-2009  03:54:16     IMAGR     Total Cleaned flux density     =    1.165      Jy      134 comps
   3    2   28-FEB-2009  03:54:16     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:16     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:17     IMAGR     Field   1 min = -724.9 MicroJy,max =  976.4 MicroJy
   3    3   28-FEB-2009  03:54:17     IMAGR     TRY ANOTHER FIELD: this is  9.330E-04 < Second best  9.944E-04
   3    4   28-FEB-2009  03:54:18     IMAGR     Field   7 min = -693.8 MicroJy,max =    1.1 MilliJy
   3    2   28-FEB-2009  03:54:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   447.61 MicroJy
   3    2   28-FEB-2009  03:54:19     IMAGR         3486 Residual map points loaded
   3    4   28-FEB-2009  03:54:19     IMAGR     Field    7 min algorithm flux= -590.655 MicroJy iter=       47
   3    3   28-FEB-2009  03:54:19     IMAGR     Field    7 Clean flux density=    2.236 MilliJy       47 comps
   3    3   28-FEB-2009  03:54:19     IMAGR     Total Cleaned flux density     =    1.167      Jy      181 comps
   3    2   28-FEB-2009  03:54:19     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:19     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:20     IMAGR     Field   2 min = -672.1 MicroJy,max =  927.0 MicroJy
   3    3   28-FEB-2009  03:54:20     IMAGR     TRY ANOTHER FIELD: this is  7.674E-04 < Second best  9.330E-04
   3    4   28-FEB-2009  03:54:20     IMAGR     Field   1 min = -726.5 MicroJy,max =  953.3 MicroJy
   3    2   28-FEB-2009  03:54:21     IMAGR     BGC Clean: using  103 cell beam + residuals >   445.75 MicroJy
   3    2   28-FEB-2009  03:54:21     IMAGR         4971 Residual map points loaded
   3    4   28-FEB-2009  03:54:21     IMAGR     Field    1 min algorithm flux=  596.478 MicroJy iter=      146
   3    3   28-FEB-2009  03:54:21     IMAGR     Field    1 Clean flux density=    1.162      Jy      146 comps
   3    3   28-FEB-2009  03:54:21     IMAGR     Total Cleaned flux density     =    1.169      Jy      251 comps
   3    2   28-FEB-2009  03:54:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:25     IMAGR     Field   2 min = -662.5 MicroJy,max =  791.0 MicroJy
   3    2   28-FEB-2009  03:54:26     IMAGR     BGC Clean: using  103 cell beam + residuals >   444.98 MicroJy
   3    2   28-FEB-2009  03:54:26     IMAGR         3278 Residual map points loaded
   3    4   28-FEB-2009  03:54:26     IMAGR     Field    2 min algorithm flux=  557.576 MicroJy iter=       69
   3    3   28-FEB-2009  03:54:26     IMAGR     Field    2 Clean flux density=    1.672 MilliJy       69 comps
   3    3   28-FEB-2009  03:54:26     IMAGR     Total Cleaned flux density     =    1.171      Jy      320 comps
   3    2   28-FEB-2009  03:54:26     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:26     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:28     IMAGR     Field   3 min = -746.3 MicroJy,max =  699.6 MicroJy
   3    2   28-FEB-2009  03:54:30     IMAGR     BGC Clean: using  103 cell beam + residuals >   444.09 MicroJy
   3    2   28-FEB-2009  03:54:30     IMAGR         1219 Residual map points loaded
   3    4   28-FEB-2009  03:54:30     IMAGR     Field    3 min algorithm flux= -520.110 MicroJy iter=       57
   3    3   28-FEB-2009  03:54:30     IMAGR     Field    3 Clean flux density=  993.027 MicroJy       57 comps
   3    3   28-FEB-2009  03:54:30     IMAGR     Total Cleaned flux density     =    1.172      Jy      377 comps
   3    2   28-FEB-2009  03:54:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:31     IMAGR     Field   6 min = -721.9 MicroJy,max =  682.2 MicroJy
   3    2   28-FEB-2009  03:54:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   442.87 MicroJy
   3    2   28-FEB-2009  03:54:33     IMAGR         1617 Residual map points loaded
   3    4   28-FEB-2009  03:54:33     IMAGR     Field    6 min algorithm flux=  526.993 MicroJy iter=       78
   3    3   28-FEB-2009  03:54:33     IMAGR     Field    6 Clean flux density=    1.245 MilliJy       78 comps
   3    3   28-FEB-2009  03:54:33     IMAGR     Total Cleaned flux density     =    1.173      Jy      455 comps
   3    2   28-FEB-2009  03:54:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:35     IMAGR     Field   5 min = -648.4 MicroJy,max =  677.7 MicroJy
   3    2   28-FEB-2009  03:54:36     IMAGR     BGC Clean: using  103 cell beam + residuals >   441.58 MicroJy
   3    2   28-FEB-2009  03:54:36     IMAGR         1196 Residual map points loaded
   3    4   28-FEB-2009  03:54:36     IMAGR     Field    5 min algorithm flux=  503.710 MicroJy iter=       68
   3    3   28-FEB-2009  03:54:36     IMAGR     Field    5 Clean flux density=  722.702 MicroJy       68 comps
   3    3   28-FEB-2009  03:54:36     IMAGR     Total Cleaned flux density     =    1.174      Jy      523 comps
   3    2   28-FEB-2009  03:54:36     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:36     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:38     IMAGR     Field   4 min = -627.8 MicroJy,max =  674.6 MicroJy
   3    2   28-FEB-2009  03:54:39     IMAGR     BGC Clean: using  103 cell beam + residuals >   439.19 MicroJy
   3    2   28-FEB-2009  03:54:39     IMAGR         1690 Residual map points loaded
   3    4   28-FEB-2009  03:54:39     IMAGR     Field    4 min algorithm flux= -509.466 MicroJy iter=      148
   3    3   28-FEB-2009  03:54:39     IMAGR     Field    4 Clean flux density=    5.838 MilliJy      148 comps
   3    3   28-FEB-2009  03:54:39     IMAGR     Total Cleaned flux density     =    1.175      Jy      613 comps
   3    2   28-FEB-2009  03:54:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:41     IMAGR     Field   1 min = -709.3 MicroJy,max =  692.4 MicroJy
   3    2   28-FEB-2009  03:54:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   434.60 MicroJy
   3    2   28-FEB-2009  03:54:42     IMAGR         3939 Residual map points loaded
   3    4   28-FEB-2009  03:54:42     IMAGR     Field    1 min algorithm flux=  522.434 MicroJy iter=      282
   3    3   28-FEB-2009  03:54:42     IMAGR     Field    1 Clean flux density=    1.163      Jy      282 comps
   3    3   28-FEB-2009  03:54:42     IMAGR     Total Cleaned flux density     =    1.175      Jy      749 comps
   3    2   28-FEB-2009  03:54:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:45     IMAGR     Field   7 min = -651.4 MicroJy,max =    1.0 MilliJy
   3    2   28-FEB-2009  03:54:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   429.94 MicroJy
   3    2   28-FEB-2009  03:54:47     IMAGR         2688 Residual map points loaded
   3    4   28-FEB-2009  03:54:47     IMAGR     Field    7 min algorithm flux= -500.593 MicroJy iter=      180
   3    3   28-FEB-2009  03:54:47     IMAGR     Field    7 Clean flux density=    3.864 MilliJy      180 comps
   3    3   28-FEB-2009  03:54:47     IMAGR     Total Cleaned flux density     =    1.177      Jy      882 comps
   3    2   28-FEB-2009  03:54:47     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:47     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:49     IMAGR     Field   2 min = -605.4 MicroJy,max =  702.2 MicroJy
   3    2   28-FEB-2009  03:54:50     IMAGR     BGC Clean: using  103 cell beam + residuals >   425.40 MicroJy
   3    2   28-FEB-2009  03:54:50     IMAGR         2687 Residual map points loaded
   3    4   28-FEB-2009  03:54:50     IMAGR     Field    2 min algorithm flux=  490.022 MicroJy iter=      213
   3    3   28-FEB-2009  03:54:50     IMAGR     Field    2 Clean flux density=    2.685 MilliJy      213 comps
   3    3   28-FEB-2009  03:54:50     IMAGR     Total Cleaned flux density     =    1.178      Jy     1026 comps
   3    2   28-FEB-2009  03:54:50     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:50     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:53     IMAGR     Field   6 min = -672.8 MicroJy,max =  651.2 MicroJy
   3    2   28-FEB-2009  03:54:54     IMAGR     BGC Clean: using  103 cell beam + residuals >   422.97 MicroJy
   3    2   28-FEB-2009  03:54:54     IMAGR         1447 Residual map points loaded
   3    4   28-FEB-2009  03:54:54     IMAGR     Field    6 min algorithm flux=  467.254 MicroJy iter=      191
   3    3   28-FEB-2009  03:54:54     IMAGR     Field    6 Clean flux density=    1.972 MilliJy      191 comps
   3    3   28-FEB-2009  03:54:54     IMAGR     Total Cleaned flux density     =    1.179      Jy     1139 comps
   3    2   28-FEB-2009  03:54:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:54:57     IMAGR     Field   1 min = -666.4 MicroJy,max =  670.2 MicroJy
   3    2   28-FEB-2009  03:54:58     IMAGR     BGC Clean: using  103 cell beam + residuals >   418.35 MicroJy
   3    2   28-FEB-2009  03:54:58     IMAGR         3181 Residual map points loaded
   3    4   28-FEB-2009  03:54:58     IMAGR     Field    1 min algorithm flux=  474.749 MicroJy iter=      445
   3    3   28-FEB-2009  03:54:58     IMAGR     Field    1 Clean flux density=    1.164      Jy      445 comps
   3    3   28-FEB-2009  03:54:58     IMAGR     Total Cleaned flux density     =    1.180      Jy     1302 comps
   3    2   28-FEB-2009  03:54:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:54:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:01     IMAGR     Field   3 min = -640.7 MicroJy,max =  609.3 MicroJy
   3    2   28-FEB-2009  03:55:01     IMAGR     BGC Clean: using  103 cell beam + residuals >   415.55 MicroJy
   3    2   28-FEB-2009  03:55:01     IMAGR         1242 Residual map points loaded
   3    4   28-FEB-2009  03:55:01     IMAGR     Field    3 min algorithm flux=  456.009 MicroJy iter=      189
   3    3   28-FEB-2009  03:55:01     IMAGR     Field    3 Clean flux density=    1.370 MilliJy      189 comps
   3    3   28-FEB-2009  03:55:01     IMAGR     Total Cleaned flux density     =    1.181      Jy     1434 comps
   3    2   28-FEB-2009  03:55:01     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:01     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:04     IMAGR     Field   4 min = -609.8 MicroJy,max =  636.1 MicroJy
   3    2   28-FEB-2009  03:55:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   412.15 MicroJy
   3    2   28-FEB-2009  03:55:04     IMAGR         1488 Residual map points loaded
   3    4   28-FEB-2009  03:55:04     IMAGR     Field    4 min algorithm flux=  448.626 MicroJy iter=      279
   3    3   28-FEB-2009  03:55:04     IMAGR     Field    4 Clean flux density=    5.340 MilliJy      279 comps
   3    3   28-FEB-2009  03:55:04     IMAGR     Total Cleaned flux density     =    1.180      Jy     1565 comps
   3    2   28-FEB-2009  03:55:04     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:04     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:06     IMAGR     Field   8 min = -502.7 MicroJy,max =  460.5 MicroJy
   3    3   28-FEB-2009  03:55:06     IMAGR     TRY ANOTHER FIELD: this is  4.289E-04 < Second best  4.826E-04
   3    4   28-FEB-2009  03:55:06     IMAGR     Field   5 min = -587.8 MicroJy,max =  648.8 MicroJy
   3    2   28-FEB-2009  03:55:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   408.69 MicroJy
   3    2   28-FEB-2009  03:55:07     IMAGR         1212 Residual map points loaded
   3    4   28-FEB-2009  03:55:07     IMAGR     Field    5 min algorithm flux=  442.932 MicroJy iter=      203
   3    3   28-FEB-2009  03:55:07     IMAGR     Field    5 Clean flux density=  671.747 MicroJy      203 comps
   3    3   28-FEB-2009  03:55:07     IMAGR     Total Cleaned flux density     =    1.180      Jy     1700 comps
   3    2   28-FEB-2009  03:55:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:11     IMAGR     Field   7 min = -610.9 MicroJy,max =  945.9 MicroJy
   3    2   28-FEB-2009  03:55:11     IMAGR     BGC Clean: using  103 cell beam + residuals >   403.47 MicroJy
   3    2   28-FEB-2009  03:55:11     IMAGR         2203 Residual map points loaded
   3    4   28-FEB-2009  03:55:11     IMAGR     Field    7 min algorithm flux= -444.678 MicroJy iter=      361
   3    3   28-FEB-2009  03:55:11     IMAGR     Field    7 Clean flux density=    5.017 MilliJy      361 comps
   3    3   28-FEB-2009  03:55:11     IMAGR     Total Cleaned flux density     =    1.181      Jy     1881 comps
   3    2   28-FEB-2009  03:55:11     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:11     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:14     IMAGR     Field   2 min = -566.8 MicroJy,max =  648.2 MicroJy
   3    2   28-FEB-2009  03:55:15     IMAGR     BGC Clean: using  103 cell beam + residuals >   398.03 MicroJy
   3    2   28-FEB-2009  03:55:15     IMAGR         2174 Residual map points loaded
   3    4   28-FEB-2009  03:55:15     IMAGR     Field    2 min algorithm flux= -436.384 MicroJy iter=      402
   3    3   28-FEB-2009  03:55:15     IMAGR     Field    2 Clean flux density=    3.887 MilliJy      402 comps
   3    3   28-FEB-2009  03:55:15     IMAGR     Total Cleaned flux density     =    1.182      Jy     2070 comps
   3    2   28-FEB-2009  03:55:15     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:15     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:18     IMAGR     Field   1 min = -639.3 MicroJy,max =  622.9 MicroJy
   3    2   28-FEB-2009  03:55:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   392.26 MicroJy
   3    2   28-FEB-2009  03:55:20     IMAGR         2550 Residual map points loaded
   3    4   28-FEB-2009  03:55:20     IMAGR     Field    1 min algorithm flux=  428.446 MicroJy iter=      643
   3    3   28-FEB-2009  03:55:20     IMAGR     Field    1 Clean flux density=    1.165      Jy      643 comps
   3    3   28-FEB-2009  03:55:20     IMAGR     Total Cleaned flux density     =    1.183      Jy     2268 comps
   3    2   28-FEB-2009  03:55:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:24     IMAGR     Field   6 min = -618.4 MicroJy,max =  584.4 MicroJy
   3    2   28-FEB-2009  03:55:25     IMAGR     BGC Clean: using  103 cell beam + residuals >   388.67 MicroJy
   3    2   28-FEB-2009  03:55:25     IMAGR         1537 Residual map points loaded
   3    4   28-FEB-2009  03:55:25     IMAGR     Field    6 min algorithm flux= -418.047 MicroJy iter=      366
   3    3   28-FEB-2009  03:55:25     IMAGR     Field    6 Clean flux density=    1.765 MilliJy      366 comps
   3    3   28-FEB-2009  03:55:25     IMAGR     Total Cleaned flux density     =    1.183      Jy     2443 comps
   3    2   28-FEB-2009  03:55:25     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:25     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:28     IMAGR     Field   3 min = -638.6 MicroJy,max =  570.0 MicroJy
   3    2   28-FEB-2009  03:55:28     IMAGR     BGC Clean: using  103 cell beam + residuals >   385.83 MicroJy
   3    2   28-FEB-2009  03:55:28     IMAGR         1214 Residual map points loaded
   3    4   28-FEB-2009  03:55:29     IMAGR     Field    3 min algorithm flux= -410.945 MicroJy iter=      351
   3    3   28-FEB-2009  03:55:29     IMAGR     Field    3 Clean flux density=  876.320 MicroJy      351 comps
   3    3   28-FEB-2009  03:55:29     IMAGR     Total Cleaned flux density     =    1.182      Jy     2605 comps
   3    2   28-FEB-2009  03:55:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:33     IMAGR     Field   4 min = -584.7 MicroJy,max =  595.5 MicroJy
   3    2   28-FEB-2009  03:55:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   382.23 MicroJy
   3    2   28-FEB-2009  03:55:33     IMAGR         1441 Residual map points loaded
   3    4   28-FEB-2009  03:55:33     IMAGR     Field    4 min algorithm flux= -407.453 MicroJy iter=      455
   3    3   28-FEB-2009  03:55:33     IMAGR     Field    4 Clean flux density=    5.613 MilliJy      455 comps
   3    3   28-FEB-2009  03:55:33     IMAGR     Total Cleaned flux density     =    1.182      Jy     2781 comps
   3    2   28-FEB-2009  03:55:33     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:33     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:35     IMAGR     Field   8 min = -457.1 MicroJy,max =  408.8 MicroJy
   3    3   28-FEB-2009  03:55:35     IMAGR     TRY ANOTHER FIELD: this is  4.021E-04 < Second best  4.269E-04
   3    4   28-FEB-2009  03:55:36     IMAGR     Field   7 min = -572.3 MicroJy,max =  907.7 MicroJy
   3    2   28-FEB-2009  03:55:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   377.65 MicroJy
   3    2   28-FEB-2009  03:55:37     IMAGR         1711 Residual map points loaded
   3    4   28-FEB-2009  03:55:37     IMAGR     Field    7 min algorithm flux=  403.321 MicroJy iter=      554
   3    3   28-FEB-2009  03:55:37     IMAGR     Field    7 Clean flux density=    5.374 MilliJy      554 comps
   3    3   28-FEB-2009  03:55:37     IMAGR     Total Cleaned flux density     =    1.183      Jy     2974 comps
   3    2   28-FEB-2009  03:55:37     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:37     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:41     IMAGR     Field   5 min = -547.9 MicroJy,max =  589.2 MicroJy
   3    2   28-FEB-2009  03:55:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   373.98 MicroJy
   3    2   28-FEB-2009  03:55:42     IMAGR         1326 Residual map points loaded
   3    4   28-FEB-2009  03:55:42     IMAGR     Field    5 min algorithm flux=  396.748 MicroJy iter=      386
   3    3   28-FEB-2009  03:55:42     IMAGR     Field    5 Clean flux density=  874.590 MicroJy      386 comps
   3    3   28-FEB-2009  03:55:42     IMAGR     Total Cleaned flux density     =    1.183      Jy     3157 comps
   3    2   28-FEB-2009  03:55:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:45     IMAGR     Field   2 min = -521.7 MicroJy,max =  600.8 MicroJy
   3    2   28-FEB-2009  03:55:45     IMAGR     BGC Clean: using  103 cell beam + residuals >   369.01 MicroJy
   3    2   28-FEB-2009  03:55:45     IMAGR         1729 Residual map points loaded
   3    4   28-FEB-2009  03:55:45     IMAGR     Field    2 min algorithm flux=  393.163 MicroJy iter=      613
   3    3   28-FEB-2009  03:55:45     IMAGR     Field    2 Clean flux density=    4.990 MilliJy      613 comps
   3    3   28-FEB-2009  03:55:45     IMAGR     Total Cleaned flux density     =    1.184      Jy     3368 comps
   3    2   28-FEB-2009  03:55:45     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:45     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:49     IMAGR     Field   1 min = -586.9 MicroJy,max =  577.4 MicroJy
   3    2   28-FEB-2009  03:55:49     IMAGR     BGC Clean: using  103 cell beam + residuals >   363.00 MicroJy
   3    2   28-FEB-2009  03:55:49     IMAGR         1979 Residual map points loaded
   3    4   28-FEB-2009  03:55:49     IMAGR     Field    1 min algorithm flux=  386.181 MicroJy iter=      861
   3    3   28-FEB-2009  03:55:49     IMAGR     Field    1 Clean flux density=    1.166      Jy      861 comps
   3    3   28-FEB-2009  03:55:49     IMAGR     Total Cleaned flux density     =    1.186      Jy     3586 comps
   3    2   28-FEB-2009  03:55:50     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:50     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:53     IMAGR     Field   8 min = -438.8 MicroJy,max =  406.3 MicroJy
   3    2   28-FEB-2009  03:55:53     IMAGR     BGC Clean: using  103 cell beam + residuals >   363.00 MicroJy
   3    2   28-FEB-2009  03:55:53     IMAGR            9 Residual map points loaded
   3    4   28-FEB-2009  03:55:53     IMAGR     Field    8 min algorithm flux=  363.161 MicroJy iter=        6
   3    3   28-FEB-2009  03:55:53     IMAGR     Field    8 Clean flux density=  468.102 Nano Jy        6 comps
   3    3   28-FEB-2009  03:55:53     IMAGR     Total Cleaned flux density     =    1.186      Jy     3592 comps
   3    2   28-FEB-2009  03:55:53     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:53     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:54     IMAGR     Field   6 min = -592.1 MicroJy,max =  543.0 MicroJy
   3    2   28-FEB-2009  03:55:55     IMAGR     BGC Clean: using  103 cell beam + residuals >   359.55 MicroJy
   3    2   28-FEB-2009  03:55:55     IMAGR         1554 Residual map points loaded
   3    4   28-FEB-2009  03:55:55     IMAGR     Field    6 min algorithm flux=  380.690 MicroJy iter=      580
   3    3   28-FEB-2009  03:55:55     IMAGR     Field    6 Clean flux density=    2.166 MilliJy      580 comps
   3    3   28-FEB-2009  03:55:55     IMAGR     Total Cleaned flux density     =    1.186      Jy     3806 comps
   3    2   28-FEB-2009  03:55:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:55:58     IMAGR     Field   3 min = -620.0 MicroJy,max =  539.0 MicroJy
   3    2   28-FEB-2009  03:55:59     IMAGR     BGC Clean: using  103 cell beam + residuals >   356.58 MicroJy
   3    2   28-FEB-2009  03:55:59     IMAGR         1181 Residual map points loaded
   3    4   28-FEB-2009  03:55:59     IMAGR     Field    3 min algorithm flux=  374.721 MicroJy iter=      546
   3    3   28-FEB-2009  03:55:59     IMAGR     Field    3 Clean flux density=    1.363 MilliJy      546 comps
   3    3   28-FEB-2009  03:55:59     IMAGR     Total Cleaned flux density     =    1.187      Jy     4001 comps
   3    2   28-FEB-2009  03:55:59     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:55:59     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:02     IMAGR     Field   4 min = -553.1 MicroJy,max =  572.0 MicroJy
   3    2   28-FEB-2009  03:56:02     IMAGR     BGC Clean: using  103 cell beam + residuals >   352.90 MicroJy
   3    2   28-FEB-2009  03:56:02     IMAGR         1374 Residual map points loaded
   3    4   28-FEB-2009  03:56:02     IMAGR     Field    4 min algorithm flux=  370.799 MicroJy iter=      659
   3    3   28-FEB-2009  03:56:02     IMAGR     Field    4 Clean flux density=    5.832 MilliJy      659 comps
   3    3   28-FEB-2009  03:56:02     IMAGR     Total Cleaned flux density     =    1.187      Jy     4205 comps
   3    2   28-FEB-2009  03:56:02     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:02     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:06     IMAGR     Field   7 min = -540.4 MicroJy,max =  844.9 MicroJy
   3    2   28-FEB-2009  03:56:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   348.39 MicroJy
   3    2   28-FEB-2009  03:56:07     IMAGR         1457 Residual map points loaded
   3    4   28-FEB-2009  03:56:07     IMAGR     Field    7 min algorithm flux= -365.982 MicroJy iter=      768
   3    3   28-FEB-2009  03:56:07     IMAGR     Field    7 Clean flux density=    5.677 MilliJy      768 comps
   3    3   28-FEB-2009  03:56:07     IMAGR     Total Cleaned flux density     =    1.187      Jy     4419 comps
   3    2   28-FEB-2009  03:56:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:11     IMAGR     Field   5 min = -531.0 MicroJy,max =  545.6 MicroJy
   3    2   28-FEB-2009  03:56:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   345.08 MicroJy
   3    2   28-FEB-2009  03:56:12     IMAGR         1254 Residual map points loaded
   3    4   28-FEB-2009  03:56:12     IMAGR     Field    5 min algorithm flux= -361.195 MicroJy iter=      593
   3    3   28-FEB-2009  03:56:12     IMAGR     Field    5 Clean flux density=    1.423 MilliJy      593 comps
   3    3   28-FEB-2009  03:56:12     IMAGR     Total Cleaned flux density     =    1.188      Jy     4626 comps
   3    2   28-FEB-2009  03:56:12     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:12     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:15     IMAGR     Field   2 min = -491.6 MicroJy,max =  572.7 MicroJy
   3    2   28-FEB-2009  03:56:17     IMAGR     BGC Clean: using  103 cell beam + residuals >   340.72 MicroJy
   3    2   28-FEB-2009  03:56:17     IMAGR         1405 Residual map points loaded
   3    4   28-FEB-2009  03:56:17     IMAGR     Field    2 min algorithm flux= -356.756 MicroJy iter=      829
   3    3   28-FEB-2009  03:56:17     IMAGR     Field    2 Clean flux density=    6.145 MilliJy      829 comps
   3    3   28-FEB-2009  03:56:17     IMAGR     Total Cleaned flux density     =    1.189      Jy     4842 comps
   3    2   28-FEB-2009  03:56:17     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:17     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:20     IMAGR     Field   1 min = -555.1 MicroJy,max =  538.9 MicroJy
   3    2   28-FEB-2009  03:56:21     IMAGR     BGC Clean: using  103 cell beam + residuals >   335.73 MicroJy
   3    2   28-FEB-2009  03:56:21     IMAGR         1667 Residual map points loaded
   3    4   28-FEB-2009  03:56:21     IMAGR     Field    1 min algorithm flux= -351.885 MicroJy iter=     1095
   3    3   28-FEB-2009  03:56:21     IMAGR     Field    1 Clean flux density=    1.168      Jy     1095 comps
   3    3   28-FEB-2009  03:56:21     IMAGR     Total Cleaned flux density     =    1.190      Jy     5076 comps
   3    2   28-FEB-2009  03:56:21     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:21     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:25     IMAGR     Field   6 min = -580.2 MicroJy,max =  524.8 MicroJy
   3    2   28-FEB-2009  03:56:26     IMAGR     BGC Clean: using  103 cell beam + residuals >   332.30 MicroJy
   3    2   28-FEB-2009  03:56:26     IMAGR         1641 Residual map points loaded
   3    4   28-FEB-2009  03:56:26     IMAGR     Field    6 min algorithm flux=  349.365 MicroJy iter=      842
   3    3   28-FEB-2009  03:56:26     IMAGR     Field    6 Clean flux density=    1.958 MilliJy      842 comps
   3    3   28-FEB-2009  03:56:26     IMAGR     Total Cleaned flux density     =    1.190      Jy     5338 comps
   3    2   28-FEB-2009  03:56:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:32     IMAGR     Field   3 min = -587.6 MicroJy,max =  494.0 MicroJy
   3    2   28-FEB-2009  03:56:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   329.26 MicroJy
   3    2   28-FEB-2009  03:56:33     IMAGR         1228 Residual map points loaded
   3    4   28-FEB-2009  03:56:33     IMAGR     Field    3 min algorithm flux= -343.371 MicroJy iter=      774
   3    3   28-FEB-2009  03:56:33     IMAGR     Field    3 Clean flux density=    1.849 MilliJy      774 comps
   3    3   28-FEB-2009  03:56:33     IMAGR     Total Cleaned flux density     =    1.190      Jy     5566 comps
   3    2   28-FEB-2009  03:56:33     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:33     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:37     IMAGR     Field   4 min = -525.5 MicroJy,max =  545.2 MicroJy
   3    2   28-FEB-2009  03:56:38     IMAGR     BGC Clean: using  103 cell beam + residuals >   325.77 MicroJy
   3    2   28-FEB-2009  03:56:38     IMAGR         1314 Residual map points loaded
   3    4   28-FEB-2009  03:56:38     IMAGR     Field    4 min algorithm flux= -338.861 MicroJy iter=      883
   3    3   28-FEB-2009  03:56:38     IMAGR     Field    4 Clean flux density=    5.901 MilliJy      883 comps
   3    3   28-FEB-2009  03:56:38     IMAGR     Total Cleaned flux density     =    1.190      Jy     5790 comps
   3    2   28-FEB-2009  03:56:38     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:38     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:41     IMAGR     Field   7 min = -524.0 MicroJy,max =  801.8 MicroJy
   3    2   28-FEB-2009  03:56:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   321.78 MicroJy
   3    2   28-FEB-2009  03:56:42     IMAGR         1245 Residual map points loaded
   3    4   28-FEB-2009  03:56:42     IMAGR     Field    7 min algorithm flux= -334.690 MicroJy iter=      999
   3    3   28-FEB-2009  03:56:42     IMAGR     Field    7 Clean flux density=    5.787 MilliJy      999 comps
   3    3   28-FEB-2009  03:56:42     IMAGR     Total Cleaned flux density     =    1.191      Jy     6021 comps
   3    2   28-FEB-2009  03:56:42     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:42     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:45     IMAGR     Field   8 min = -388.1 MicroJy,max =  357.5 MicroJy
   3    3   28-FEB-2009  03:56:45     IMAGR     TRY ANOTHER FIELD: this is  3.246E-04 < Second best  3.468E-04
   3    4   28-FEB-2009  03:56:45     IMAGR     Field   5 min = -501.5 MicroJy,max =  508.6 MicroJy
   3    2   28-FEB-2009  03:56:48     IMAGR     BGC Clean: using  103 cell beam + residuals >   318.70 MicroJy
   3    2   28-FEB-2009  03:56:48     IMAGR         1327 Residual map points loaded
   3    4   28-FEB-2009  03:56:48     IMAGR     Field    5 min algorithm flux= -331.666 MicroJy iter=      837
   3    3   28-FEB-2009  03:56:48     IMAGR     Field    5 Clean flux density=  884.203 MicroJy      837 comps
   3    3   28-FEB-2009  03:56:48     IMAGR     Total Cleaned flux density     =    1.190      Jy     6265 comps
   3    2   28-FEB-2009  03:56:48     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:48     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:52     IMAGR     Field   2 min = -465.6 MicroJy,max =  531.8 MicroJy
   3    2   28-FEB-2009  03:56:53     IMAGR     BGC Clean: using  103 cell beam + residuals >   314.91 MicroJy
   3    2   28-FEB-2009  03:56:53     IMAGR         1067 Residual map points loaded
   3    4   28-FEB-2009  03:56:53     IMAGR     Field    2 min algorithm flux=  325.548 MicroJy iter=     1040
   3    3   28-FEB-2009  03:56:53     IMAGR     Field    2 Clean flux density=    6.911 MilliJy     1040 comps
   3    3   28-FEB-2009  03:56:53     IMAGR     Total Cleaned flux density     =    1.191      Jy     6476 comps
   3    2   28-FEB-2009  03:56:53     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:53     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:56:56     IMAGR     Field   1 min = -490.3 MicroJy,max =  497.3 MicroJy
   3    2   28-FEB-2009  03:56:57     IMAGR     BGC Clean: using  103 cell beam + residuals >   310.55 MicroJy
   3    2   28-FEB-2009  03:56:57     IMAGR         1224 Residual map points loaded
   3    4   28-FEB-2009  03:56:57     IMAGR     Field    1 min algorithm flux= -321.435 MicroJy iter=     1319
   3    3   28-FEB-2009  03:56:57     IMAGR     Field    1 Clean flux density=    1.169      Jy     1319 comps
   3    3   28-FEB-2009  03:56:57     IMAGR     Total Cleaned flux density     =    1.192      Jy     6700 comps
   3    2   28-FEB-2009  03:56:57     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:56:57     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:00     IMAGR     Field   6 min = -553.1 MicroJy,max =  505.7 MicroJy
   3    2   28-FEB-2009  03:57:01     IMAGR     BGC Clean: using  103 cell beam + residuals >   307.22 MicroJy
   3    2   28-FEB-2009  03:57:03     IMAGR         1651 Residual map points loaded
   3    4   28-FEB-2009  03:57:03     IMAGR     Field    6 min algorithm flux=  320.258 MicroJy iter=     1124
   3    3   28-FEB-2009  03:57:03     IMAGR     Field    6 Clean flux density=    2.167 MilliJy     1124 comps
   3    3   28-FEB-2009  03:57:03     IMAGR     Total Cleaned flux density     =    1.192      Jy     6982 comps
   3    2   28-FEB-2009  03:57:03     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:03     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:07     IMAGR     Field   3 min = -548.1 MicroJy,max =  470.7 MicroJy
   3    2   28-FEB-2009  03:57:08     IMAGR     BGC Clean: using  103 cell beam + residuals >   304.27 MicroJy
   3    2   28-FEB-2009  03:57:08     IMAGR         1376 Residual map points loaded
   3    4   28-FEB-2009  03:57:08     IMAGR     Field    3 min algorithm flux=  316.167 MicroJy iter=     1045
   3    3   28-FEB-2009  03:57:08     IMAGR     Field    3 Clean flux density=    2.079 MilliJy     1045 comps
   3    3   28-FEB-2009  03:57:08     IMAGR     Total Cleaned flux density     =    1.193      Jy     7253 comps
   3    2   28-FEB-2009  03:57:08     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:08     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:12     IMAGR     Field   4 min = -527.2 MicroJy,max =  515.7 MicroJy
   3    2   28-FEB-2009  03:57:13     IMAGR     BGC Clean: using  103 cell beam + residuals >   301.02 MicroJy
   3    2   28-FEB-2009  03:57:13     IMAGR         1449 Residual map points loaded
   3    4   28-FEB-2009  03:57:13     IMAGR     Field    4 min algorithm flux= -312.491 MicroJy iter=     1159
   3    3   28-FEB-2009  03:57:13     IMAGR     Field    4 Clean flux density=    5.131 MilliJy     1159 comps
   3    3   28-FEB-2009  03:57:13     IMAGR     Total Cleaned flux density     =    1.192      Jy     7529 comps
   3    2   28-FEB-2009  03:57:13     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:13     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:16     IMAGR     Field   8 min = -366.8 MicroJy,max =  334.6 MicroJy
   3    2   28-FEB-2009  03:57:17     IMAGR     BGC Clean: using  103 cell beam + residuals >   300.99 MicroJy
   3    2   28-FEB-2009  03:57:17     IMAGR            3 Residual map points loaded
   3    4   28-FEB-2009  03:57:17     IMAGR     Field    8 min algorithm flux=  292.450 MicroJy iter=        9
   3    3   28-FEB-2009  03:57:17     IMAGR     Field    8 Clean flux density=   31.190 MicroJy        9 comps
   3    3   28-FEB-2009  03:57:17     IMAGR     Total Cleaned flux density     =    1.192      Jy     7532 comps
   3    2   28-FEB-2009  03:57:17     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:17     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:18     IMAGR     Field   7 min = -498.0 MicroJy,max =  747.7 MicroJy
   3    2   28-FEB-2009  03:57:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   297.64 MicroJy
   3    2   28-FEB-2009  03:57:18     IMAGR          999 Residual map points loaded
   3    4   28-FEB-2009  03:57:18     IMAGR     Field    7 min algorithm flux= -306.222 MicroJy iter=     1212
   3    3   28-FEB-2009  03:57:18     IMAGR     Field    7 Clean flux density=    6.813 MilliJy     1212 comps
   3    3   28-FEB-2009  03:57:18     IMAGR     Total Cleaned flux density     =    1.193      Jy     7745 comps
   3    2   28-FEB-2009  03:57:18     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:18     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:21     IMAGR     Field   5 min = -479.9 MicroJy,max =  490.2 MicroJy
   3    2   28-FEB-2009  03:57:22     IMAGR     BGC Clean: using  103 cell beam + residuals >   294.65 MicroJy
   3    2   28-FEB-2009  03:57:22     IMAGR         1358 Residual map points loaded
   3    4   28-FEB-2009  03:57:22     IMAGR     Field    5 min algorithm flux= -305.471 MicroJy iter=     1118
   3    3   28-FEB-2009  03:57:22     IMAGR     Field    5 Clean flux density=  855.855 MicroJy     1118 comps
   3    3   28-FEB-2009  03:57:22     IMAGR     Total Cleaned flux density     =    1.193      Jy     8026 comps
   3    2   28-FEB-2009  03:57:22     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:22     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:26     IMAGR     Field   2 min = -440.8 MicroJy,max =  499.8 MicroJy
   3    2   28-FEB-2009  03:57:28     IMAGR     BGC Clean: using  103 cell beam + residuals >   291.48 MicroJy
   3    2   28-FEB-2009  03:57:28     IMAGR          892 Residual map points loaded
   3    4   28-FEB-2009  03:57:28     IMAGR     Field    2 min algorithm flux=  299.413 MicroJy iter=     1256
   3    3   28-FEB-2009  03:57:28     IMAGR     Field    2 Clean flux density=    7.711 MilliJy     1256 comps
   3    3   28-FEB-2009  03:57:28     IMAGR     Total Cleaned flux density     =    1.194      Jy     8242 comps
   3    2   28-FEB-2009  03:57:28     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:28     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:32     IMAGR     Field   1 min = -459.8 MicroJy,max =  456.4 MicroJy
   3    2   28-FEB-2009  03:57:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   288.09 MicroJy
   3    2   28-FEB-2009  03:57:34     IMAGR          949 Residual map points loaded
   3    4   28-FEB-2009  03:57:34     IMAGR     Field    1 min algorithm flux= -295.602 MicroJy iter=     1531
   3    3   28-FEB-2009  03:57:34     IMAGR     Field    1 Clean flux density=    1.169      Jy     1531 comps
   3    3   28-FEB-2009  03:57:34     IMAGR     Total Cleaned flux density     =    1.194      Jy     8454 comps
   3    2   28-FEB-2009  03:57:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:37     IMAGR     Field   6 min = -532.1 MicroJy,max =  477.2 MicroJy
   3    2   28-FEB-2009  03:57:38     IMAGR     BGC Clean: using  103 cell beam + residuals >   284.89 MicroJy
   3    2   28-FEB-2009  03:57:38     IMAGR         1678 Residual map points loaded
   3    4   28-FEB-2009  03:57:38     IMAGR     Field    6 min algorithm flux=  295.845 MicroJy iter=     1447
   3    3   28-FEB-2009  03:57:38     IMAGR     Field    6 Clean flux density=    2.319 MilliJy     1447 comps
   3    3   28-FEB-2009  03:57:38     IMAGR     Total Cleaned flux density     =    1.194      Jy     8777 comps
   3    2   28-FEB-2009  03:57:38     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:38     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:42     IMAGR     Field   3 min = -512.6 MicroJy,max =  443.2 MicroJy
   3    2   28-FEB-2009  03:57:43     IMAGR     BGC Clean: using  103 cell beam + residuals >   281.90 MicroJy
   3    2   28-FEB-2009  03:57:43     IMAGR         1417 Residual map points loaded
   3    4   28-FEB-2009  03:57:43     IMAGR     Field    3 min algorithm flux=  291.633 MicroJy iter=     1344
   3    3   28-FEB-2009  03:57:43     IMAGR     Field    3 Clean flux density=    1.110 MilliJy     1344 comps
   3    3   28-FEB-2009  03:57:43     IMAGR     Total Cleaned flux density     =    1.193      Jy     9076 comps
   3    2   28-FEB-2009  03:57:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:47     IMAGR     Field   4 min = -508.8 MicroJy,max =  464.7 MicroJy
   3    2   28-FEB-2009  03:57:48     IMAGR     BGC Clean: using  103 cell beam + residuals >   278.76 MicroJy
   3    2   28-FEB-2009  03:57:48     IMAGR         1453 Residual map points loaded
   3    4   28-FEB-2009  03:57:48     IMAGR     Field    4 min algorithm flux=  287.968 MicroJy iter=     1458
   3    3   28-FEB-2009  03:57:48     IMAGR     Field    4 Clean flux density=    5.386 MilliJy     1458 comps
   3    3   28-FEB-2009  03:57:48     IMAGR     Total Cleaned flux density     =    1.193      Jy     9375 comps
   3    2   28-FEB-2009  03:57:48     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:48     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:52     IMAGR     Field   7 min = -461.0 MicroJy,max =  686.0 MicroJy
   3    2   28-FEB-2009  03:57:54     IMAGR     BGC Clean: using  103 cell beam + residuals >   276.06 MicroJy
   3    2   28-FEB-2009  03:57:54     IMAGR          863 Residual map points loaded
   3    4   28-FEB-2009  03:57:54     IMAGR     Field    7 min algorithm flux= -283.014 MicroJy iter=     1444
   3    3   28-FEB-2009  03:57:54     IMAGR     Field    7 Clean flux density=    6.937 MilliJy     1444 comps
   3    3   28-FEB-2009  03:57:54     IMAGR     Total Cleaned flux density     =    1.194      Jy     9607 comps
   3    2   28-FEB-2009  03:57:54     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:54     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:57:58     IMAGR     Field   5 min = -457.5 MicroJy,max =  463.1 MicroJy
   3    2   28-FEB-2009  03:57:59     IMAGR     BGC Clean: using  103 cell beam + residuals >   273.19 MicroJy
   3    2   28-FEB-2009  03:57:59     IMAGR         1338 Residual map points loaded
   3    4   28-FEB-2009  03:57:59     IMAGR     Field    5 min algorithm flux=  281.789 MicroJy iter=     1415
   3    3   28-FEB-2009  03:57:59     IMAGR     Field    5 Clean flux density=    2.077 MilliJy     1415 comps
   3    3   28-FEB-2009  03:57:59     IMAGR     Total Cleaned flux density     =    1.195      Jy     9904 comps
   3    2   28-FEB-2009  03:57:59     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:57:59     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:03     IMAGR     Field   2 min = -410.0 MicroJy,max =  464.2 MicroJy
   3    2   28-FEB-2009  03:58:04     IMAGR     BGC Clean: using  103 cell beam + residuals >   270.47 MicroJy
   3    2   28-FEB-2009  03:58:04     IMAGR          701 Residual map points loaded
   3    4   28-FEB-2009  03:58:04     IMAGR     Field    2 min algorithm flux=  276.289 MicroJy iter=     1465
   3    3   28-FEB-2009  03:58:04     IMAGR     Field    2 Clean flux density=    7.842 MilliJy     1465 comps
   3    3   28-FEB-2009  03:58:04     IMAGR     Total Cleaned flux density     =    1.195      Jy    10113 comps
   3    2   28-FEB-2009  03:58:04     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:04     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:08     IMAGR     Field   6 min = -511.6 MicroJy,max =  459.1 MicroJy
   3    2   28-FEB-2009  03:58:08     IMAGR     BGC Clean: using  103 cell beam + residuals >   267.72 MicroJy
   3    2   28-FEB-2009  03:58:08     IMAGR         1370 Residual map points loaded
   3    4   28-FEB-2009  03:58:08     IMAGR     Field    6 min algorithm flux= -275.940 MicroJy iter=     1753
   3    3   28-FEB-2009  03:58:08     IMAGR     Field    6 Clean flux density=    1.997 MilliJy     1753 comps
   3    3   28-FEB-2009  03:58:08     IMAGR     Total Cleaned flux density     =    1.195      Jy    10419 comps
   3    2   28-FEB-2009  03:58:08     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:08     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:12     IMAGR     Field   1 min = -427.3 MicroJy,max =  425.9 MicroJy
   3    2   28-FEB-2009  03:58:13     IMAGR     BGC Clean: using  103 cell beam + residuals >   264.54 MicroJy
   3    2   28-FEB-2009  03:58:13     IMAGR          973 Residual map points loaded
   3    4   28-FEB-2009  03:58:13     IMAGR     Field    1 min algorithm flux=  270.997 MicroJy iter=     1780
   3    3   28-FEB-2009  03:58:13     IMAGR     Field    1 Clean flux density=    1.171      Jy     1780 comps
   3    3   28-FEB-2009  03:58:13     IMAGR     Total Cleaned flux density     =    1.196      Jy    10668 comps
   3    2   28-FEB-2009  03:58:13     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:13     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:16     IMAGR     Field   8 min = -322.3 MicroJy,max =  289.6 MicroJy
   3    3   28-FEB-2009  03:58:16     IMAGR     TRY ANOTHER FIELD: this is  2.659E-04 < Second best  2.802E-04
   3    4   28-FEB-2009  03:58:17     IMAGR     Field   3 min = -475.0 MicroJy,max =  425.2 MicroJy
   3    2   28-FEB-2009  03:58:17     IMAGR     BGC Clean: using  103 cell beam + residuals >   261.77 MicroJy
   3    2   28-FEB-2009  03:58:17     IMAGR         1559 Residual map points loaded
   3    4   28-FEB-2009  03:58:17     IMAGR     Field    3 min algorithm flux=  270.365 MicroJy iter=     1688
   3    3   28-FEB-2009  03:58:17     IMAGR     Field    3 Clean flux density=    1.451 MilliJy     1688 comps
   3    3   28-FEB-2009  03:58:17     IMAGR     Total Cleaned flux density     =    1.196      Jy    11012 comps
   3    2   28-FEB-2009  03:58:17     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:17     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:23     IMAGR     Field   4 min = -480.3 MicroJy,max =  459.0 MicroJy
   3    2   28-FEB-2009  03:58:24     IMAGR     BGC Clean: using  103 cell beam + residuals >   258.87 MicroJy
   3    2   28-FEB-2009  03:58:24     IMAGR         1452 Residual map points loaded
   3    4   28-FEB-2009  03:58:24     IMAGR     Field    4 min algorithm flux=  266.817 MicroJy iter=     1792
   3    3   28-FEB-2009  03:58:24     IMAGR     Field    4 Clean flux density=    5.649 MilliJy     1792 comps
   3    3   28-FEB-2009  03:58:24     IMAGR     Total Cleaned flux density     =    1.196      Jy    11346 comps
   3    2   28-FEB-2009  03:58:24     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:24     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:29     IMAGR     Field   7 min = -433.6 MicroJy,max =  647.6 MicroJy
   3    2   28-FEB-2009  03:58:30     IMAGR     BGC Clean: using  103 cell beam + residuals >   256.44 MicroJy
   3    2   28-FEB-2009  03:58:30     IMAGR          737 Residual map points loaded
   3    4   28-FEB-2009  03:58:30     IMAGR     Field    7 min Clean flux    =  263.245 MicroJy iter=     1597
   3    5   28-FEB-2009  03:58:30     IMAGR     Field    7 Clean flux density=    7.546 MilliJy     1597 comps
   3    5   28-FEB-2009  03:58:30     IMAGR     Total Cleaned flux density     =    1.197      Jy    11499 comps
   3    2   28-FEB-2009  03:58:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:33     IMAGR     Field   5 min = -424.7 MicroJy,max =  437.9 MicroJy
   3    2   28-FEB-2009  03:58:34     IMAGR     BGC Clean: using  103 cell beam + residuals >   253.06 MicroJy
   3    2   28-FEB-2009  03:58:34     IMAGR         1555 Residual map points loaded
   3    4   28-FEB-2009  03:58:34     IMAGR     Field    5 min Clean flux    =  263.416 MicroJy iter=     1631
   3    5   28-FEB-2009  03:58:34     IMAGR     Field    5 Clean flux density=    2.233 MilliJy     1631 comps
   3    5   28-FEB-2009  03:58:34     IMAGR     Total Cleaned flux density     =    1.197      Jy    11715 comps
   3    2   28-FEB-2009  03:58:34     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:34     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:36     IMAGR     Field   8 min = -304.4 MicroJy,max =  274.6 MicroJy
   3    2   28-FEB-2009  03:58:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   251.93 MicroJy
   3    2   28-FEB-2009  03:58:37     IMAGR            5 Residual map points loaded
   3    4   28-FEB-2009  03:58:37     IMAGR     Field    8 min Clean flux    = -257.706 MicroJy iter=       12
   3    5   28-FEB-2009  03:58:37     IMAGR     Field    8 Clean flux density=  -47.537 MicroJy       12 comps
   3    5   28-FEB-2009  03:58:37     IMAGR     Total Cleaned flux density     =    1.197      Jy    11718 comps
   3    2   28-FEB-2009  03:58:37     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:37     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:38     IMAGR     Field   2 min = -392.5 MicroJy,max =  441.9 MicroJy
   3    2   28-FEB-2009  03:58:39     IMAGR     BGC Clean: using  103 cell beam + residuals >   249.25 MicroJy
   3    2   28-FEB-2009  03:58:39     IMAGR         1076 Residual map points loaded
   3    4   28-FEB-2009  03:58:39     IMAGR     Field    2 min Clean flux    =  263.350 MicroJy iter=     1515
   3    5   28-FEB-2009  03:58:39     IMAGR     Field    2 Clean flux density=    7.678 MilliJy     1515 comps
   3    5   28-FEB-2009  03:58:39     IMAGR     Total Cleaned flux density     =    1.197      Jy    11768 comps
   3    2   28-FEB-2009  03:58:39     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:39     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:40     IMAGR     Field   6 min = -500.9 MicroJy,max =  436.5 MicroJy
   3    2   28-FEB-2009  03:58:40     IMAGR     BGC Clean: using  103 cell beam + residuals >   244.59 MicroJy
   3    2   28-FEB-2009  03:58:40     IMAGR         2990 Residual map points loaded
   3    4   28-FEB-2009  03:58:40     IMAGR     Field    6 min Clean flux    = -263.401 MicroJy iter=     1868
   3    5   28-FEB-2009  03:58:40     IMAGR     Field    6 Clean flux density=    1.863 MilliJy     1868 comps
   3    5   28-FEB-2009  03:58:40     IMAGR     Total Cleaned flux density     =    1.197      Jy    11883 comps
   3    2   28-FEB-2009  03:58:40     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:40     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:43     IMAGR     Field   1 min = -402.6 MicroJy,max =  404.3 MicroJy
   3    2   28-FEB-2009  03:58:43     IMAGR     BGC Clean: using  103 cell beam + residuals >   237.99 MicroJy
   3    2   28-FEB-2009  03:58:43     IMAGR         3330 Residual map points loaded
   3    4   28-FEB-2009  03:58:43     IMAGR     Field    1 min Clean flux    = -263.418 MicroJy iter=     1805
   3    5   28-FEB-2009  03:58:43     IMAGR     Field    1 Clean flux density=    1.171      Jy     1805 comps
   3    5   28-FEB-2009  03:58:43     IMAGR     Total Cleaned flux density     =    1.197      Jy    11908 comps
   3    2   28-FEB-2009  03:58:43     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:43     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:44     IMAGR     Field   3 min = -462.4 MicroJy,max =  415.4 MicroJy
   3    2   28-FEB-2009  03:58:44     IMAGR     BGC Clean: using  103 cell beam + residuals >   229.28 MicroJy
   3    2   28-FEB-2009  03:58:44     IMAGR         7552 Residual map points loaded
   3    4   28-FEB-2009  03:58:44     IMAGR     Field    3 min Clean flux    =  263.420 MicroJy iter=     1724
   3    5   28-FEB-2009  03:58:44     IMAGR     Field    3 Clean flux density=    1.719 MilliJy     1724 comps
   3    5   28-FEB-2009  03:58:44     IMAGR     Total Cleaned flux density     =    1.197      Jy    11944 comps
   3    2   28-FEB-2009  03:58:44     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:44     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:45     IMAGR     Field   4 min = -464.8 MicroJy,max =  458.0 MicroJy
   3    2   28-FEB-2009  03:58:46     IMAGR     BGC Clean: using  103 cell beam + residuals >   210.43 MicroJy
   3    2   28-FEB-2009  03:58:46     IMAGR        19983 Residual map points loaded
   3    4   28-FEB-2009  03:58:46     IMAGR     Field    4 min Clean flux    = -263.351 MicroJy iter=     1811
   3    5   28-FEB-2009  03:58:46     IMAGR     Field    4 Clean flux density=    5.729 MilliJy     1811 comps
   3    5   28-FEB-2009  03:58:46     IMAGR     Total Cleaned flux density     =    1.197      Jy    11963 comps
   3    2   28-FEB-2009  03:58:46     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:58:46     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:58:46     IMAGR     Peak residual in window 263.420 less than limit 263.420 MicroJy
   3    3   28-FEB-2009  03:58:46     IMAGR     Merging the Clean components files
   3    3   28-FEB-2009  03:58:46     IMAGR     Field    1 compressed from      1805 to      1242 components
   3    3   28-FEB-2009  03:58:46     IMAGR     Field    2 compressed from      1515 to      1107 components
   3    3   28-FEB-2009  03:58:46     IMAGR     Field    3 compressed from      1724 to      1232 components
   3    3   28-FEB-2009  03:58:46     IMAGR     Field    4 compressed from      1811 to      1325 components
   3    3   28-FEB-2009  03:58:46     IMAGR     Field    5 compressed from      1631 to      1218 components
   3    3   28-FEB-2009  03:58:46     IMAGR     Field    6 compressed from      1868 to      1320 components
   3    3   28-FEB-2009  03:58:46     IMAGR     Field    7 compressed from      1597 to      1160 components
   3    3   28-FEB-2009  03:58:46     IMAGR     Field    8 compressed from        12 to         8 components
   3    4   28-FEB-2009  03:58:47     IMAGR     Field   1 min = -403.6 MicroJy,max =  405.0 MicroJy
   3    4   28-FEB-2009  03:58:48     IMAGR     Field   2 min = -391.1 MicroJy,max =  438.0 MicroJy
   3    4   28-FEB-2009  03:58:49     IMAGR     Field   3 min = -461.3 MicroJy,max =  414.7 MicroJy
   3    4   28-FEB-2009  03:58:50     IMAGR     Field   4 min = -464.7 MicroJy,max =  458.1 MicroJy
   3    4   28-FEB-2009  03:58:51     IMAGR     Field   5 min = -413.5 MicroJy,max =  428.1 MicroJy
   3    4   28-FEB-2009  03:58:51     IMAGR     Field   6 min = -497.6 MicroJy,max =  435.9 MicroJy
   3    4   28-FEB-2009  03:58:52     IMAGR     Field   7 min = -424.3 MicroJy,max =  626.7 MicroJy
   3    4   28-FEB-2009  03:58:52     IMAGR     Field   8 min = -300.7 MicroJy,max =  275.4 MicroJy
   3    3   28-FEB-2009  03:58:52     IMAGR     Restoring Clean components
   3    3   28-FEB-2009  03:59:04     IMAGR     Restoring overlapped Clean components
   3    3   28-FEB-2009  03:59:04     IMAGR     Restore   2.029 MilliJy (    91 CCs) from field   1 to field   2
   3    3   28-FEB-2009  03:59:04     IMAGR     Restore 239.927 MicroJy (   133 CCs) from field   1 to field   3
   3    3   28-FEB-2009  03:59:08     IMAGR     Restore 995.383 MicroJy (   167 CCs) from field   1 to field   4
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore 644.230 MicroJy (   139 CCs) from field   1 to field   5
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore -70.440 MicroJy (   135 CCs) from field   1 to field   6
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore   2.090 MilliJy (   104 CCs) from field   1 to field   7
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore 356.194 MicroJy (   102 CCs) from field   2 to field   1
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore-628.181 MicroJy (   107 CCs) from field   2 to field   3
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore-682.860 MicroJy (   136 CCs) from field   2 to field   4
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore 340.270 MicroJy (   105 CCs) from field   3 to field   1
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore-623.169 MicroJy (   107 CCs) from field   3 to field   2
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore-247.076 MicroJy (    98 CCs) from field   3 to field   5
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore   7.052 MilliJy (   182 CCs) from field   4 to field   1
   3    3   28-FEB-2009  03:59:11     IMAGR     Restore   8.229 MilliJy (   166 CCs) from field   4 to field   2
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore -15.318 MicroJy (    97 CCs) from field   4 to field   6
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore-416.504 MicroJy (   133 CCs) from field   5 to field   1
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore 449.066 MicroJy (    76 CCs) from field   5 to field   3
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore-207.285 MicroJy (   121 CCs) from field   5 to field   7
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore 474.924 Nano Jy (    32 CCs) from field   5 to field   8
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore  67.462 MicroJy (   100 CCs) from field   6 to field   1
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore   1.009 MilliJy (   111 CCs) from field   6 to field   4
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore 515.601 MicroJy (   105 CCs) from field   6 to field   7
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore 284.609 MicroJy (    91 CCs) from field   7 to field   1
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore 720.964 MicroJy (   143 CCs) from field   7 to field   5
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore 431.830 MicroJy (   115 CCs) from field   7 to field   6
   3    3   28-FEB-2009  03:59:12     IMAGR     Restore -47.537 MicroJy (     8 CCs) from field   8 to field   5
   3    3   28-FEB-2009  03:59:13     IMAGR     Restore -26.552 MicroJy (     1 CCs) from field   8 to field   7
   3    3   28-FEB-2009  03:59:13     IMAGR     Checking image max/min
   3    3   28-FEB-2009  03:59:13     IMAGR     Field    1 final Clean flux     1.178      Jy
   3    3   28-FEB-2009  03:59:13     IMAGR     Field    2 final Clean flux    17.313 MilliJy
   3    3   28-FEB-2009  03:59:13     IMAGR     Field    3 final Clean flux     1.779 MilliJy
   3    3   28-FEB-2009  03:59:13     IMAGR     Field    4 final Clean flux     7.050 MilliJy
   3    3   28-FEB-2009  03:59:13     IMAGR     Field    5 final Clean flux     3.304 MilliJy
   3    3   28-FEB-2009  03:59:13     IMAGR     Field    6 final Clean flux     2.209 MilliJy
   3    3   28-FEB-2009  03:59:13     IMAGR     Field    7 final Clean flux     9.918 MilliJy
   3    3   28-FEB-2009  03:59:13     IMAGR     Field    8 final Clean flux   -47.062 MicroJy
   3    6   28-FEB-2009  03:59:18     IMAGR     Deleting UV work file:
   3    4   28-FEB-2009  03:59:20     IMAGR     Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  03:59:20     IMAGR     Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  03:59:20     IMAGR     Destroyed UV image file: catno=     29 disk= 1
   3    3   28-FEB-2009  03:59:20     IMAGR     Appears to have ended successfully
   3    5   28-FEB-2009  03:59:20     IMAGR     vlbacald-b   31DEC07 TST: Cpu=     280.7  Real=     357
   3    2   28-FEB-2009  03:59:21     AIPS      Resumes
   3    3   28-FEB-2009  03:59:23     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:59:23     AIPS      rm -f /tmp/SETFC@2136+141_LBAND1.0-1 >& /dev/null
   3    5   28-FEB-2009  03:59:23     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:59:24     UVPLT     GFINIS: number records used    6988
   3    2   28-FEB-2009  03:59:24     UVPLT     PLTUV:     148400 Points plotted
   3    2   28-FEB-2009  03:59:24     UVPLT     PLTUV: Plot file version    1  created.
   3    3   28-FEB-2009  03:59:24     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:59:24     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.2  Real=       1
   3    2   28-FEB-2009  03:59:25     AIPS      Resumes
   3    5   28-FEB-2009  03:59:26     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:59:26     UVPLT     GFINIS: number records used    3496
   3    2   28-FEB-2009  03:59:26     UVPLT     PLTUV:      74200 Points plotted
   3    2   28-FEB-2009  03:59:26     UVPLT     PLTUV: Plot file version    2  created.
   3    3   28-FEB-2009  03:59:26     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:59:26     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    2   28-FEB-2009  03:59:26     AIPS      Resumes
   3    5   28-FEB-2009  03:59:26     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:59:29     UVPLT     GFINIS: number records used    3496
   3    2   28-FEB-2009  03:59:29     UVPLT     PLTUV:      74200 Points plotted
   3    2   28-FEB-2009  03:59:29     UVPLT     PLTUV: Plot file version    3  created.
   3    3   28-FEB-2009  03:59:29     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  03:59:29     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       3
   3    2   28-FEB-2009  03:59:29     AIPS      Resumes
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed MA image file: catno=     30 disk= 1
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed MA image file: catno=     31 disk= 1
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed MA image file: catno=     32 disk= 1
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed MA image file: catno=     33 disk= 1
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed MA image file: catno=     34 disk= 1
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed MA image file: catno=     35 disk= 1
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed MA image file: catno=     36 disk= 1
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  03:59:29     AIPS      Destroyed MA image file: catno=     37 disk= 1
   3    2   28-FEB-2009  03:59:29     AIPS      Disk  1 in-CNO   38 renumbered as CNO   29
   3    2   28-FEB-2009  03:59:29     AIPS      Disk  1 in-CNO   39 renumbered as CNO   30
   3    2   28-FEB-2009  03:59:29     AIPS      Disk  1 in-CNO   40 renumbered as CNO   31
   3    2   28-FEB-2009  03:59:29     AIPS      Disk  1 in-CNO   41 renumbered as CNO   32
   3    2   28-FEB-2009  03:59:29     AIPS      Disk  1 in-CNO   42 renumbered as CNO   33
   3    2   28-FEB-2009  03:59:29     AIPS      Disk  1 in-CNO   43 renumbered as CNO   34
   3    2   28-FEB-2009  03:59:29     AIPS      Disk  1 in-CNO   44 renumbered as CNO   35
   3    2   28-FEB-2009  03:59:29     AIPS      Disk  1 in-CNO   45 renumbered as CNO   36
   3    5   28-FEB-2009  03:59:29     AIPS      ' '
   3    5   28-FEB-2009  03:59:29     AIPS      'ESTIMATED RMS:'     '0.02049 MILLI JANSKY'
   3    3   28-FEB-2009  03:59:29     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:59:29     AIPS      rm -f /tmp/SETFC@NGC7078_LBAND1.0-1 >& /dev/null
   3    2   28-FEB-2009  03:59:29     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:59:29     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:59:29     SETFC     Found NGC7078     .LBAND1.00001 Disk  1 slot     7
   3    4   28-FEB-2009  03:59:30     SETFC     SETCEL: max baseline, W = 1.0927E+05 4.9272E+04 wavelengths
   3    4   28-FEB-2009  03:59:30     SETFC     SETCEL: max field radius 5.3650E+02 arc seconds
   3    4   28-FEB-2009  03:59:30     SETFC     SETCEL: recommends IMSIZE  1705 CELLSIZE   0.629230
   3    4   28-FEB-2009  03:59:30     SETFC     SETCEL: returns    IMSIZE  2048 CELLSIZE   0.529089
   3    2   28-FEB-2009  03:59:30     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:59:30     SETFC     ZTXOP2: /tmp/SETFC@NGC7078_LBAND1.0-1
   3    4   28-FEB-2009  03:59:30     SETFC     FLYEYE added   7 fields to BOXFILE to  0.255 deg
   3    4   28-FEB-2009  03:59:30     SETFC     First field number written was   1
   3    4   28-FEB-2009  03:59:30     SETFC     Highest field number written was   7
   3    2   28-FEB-2009  03:59:30     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:59:30     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:59:30     SETFC     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       1
   3    2   28-FEB-2009  03:59:30     AIPS      Resumes
   3    3   28-FEB-2009  03:59:30     AIPS      SETFC    was not found to be running
   3    5   28-FEB-2009  03:59:30     AIPS      'SEARCHING FOR NVSS SOURCES'
   3    2   28-FEB-2009  03:59:30     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  03:59:30     SETFC     Task SETFC  (release of 31DEC07) begins
   3    3   28-FEB-2009  03:59:30     SETFC     Found NGC7078     .LBAND1.00001 Disk  1 slot     7
   3    2   28-FEB-2009  03:59:30     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:59:30     SETFC     ZTXOP2: /tmp/SETFC@NGC7078_LBAND1.0-1
   3    3   28-FEB-2009  03:59:30     SETFC     Searching catalog between  0.26 and   0.77 degrees radius
   3    2   28-FEB-2009  03:59:30     SETFC     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:59:30     SETFC     ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030
   3    3   28-FEB-2009  03:59:31     SETFC     Field       RA            Dec             Flux     Beam    Sep
   3    3   28-FEB-2009  03:59:31     SETFC         8    21:30:04.15    11:50:44.1        0.049    0.283   0.323
   3    4   28-FEB-2009  03:59:31     SETFC     Add NVSS: wrote   1 fields to BOXFILE
   3    3   28-FEB-2009  03:59:31     SETFC     The Sun is 136.6 deg away - ignoring
   3    4   28-FEB-2009  03:59:31     SETFC     First field number written was   8
   3    4   28-FEB-2009  03:59:31     SETFC     Highest field number written was   8
   3    2   28-FEB-2009  03:59:31     SETFC     returns adverbs to AIPS
   3    3   28-FEB-2009  03:59:31     SETFC     Appears to have ended successfully
   3    5   28-FEB-2009  03:59:31     SETFC     vlbacald-b   31DEC07 TST: Cpu=       1.4  Real=       1
   3    2   28-FEB-2009  03:59:31     AIPS      Resumes
   3    3   28-FEB-2009  03:59:31     AIPS      SETFC    was not found to be running
   3    3   28-FEB-2009  03:59:31     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:59:31     AIPS      echo "SETFC FILE FOR SOURCE NGC7078 BELOW IS:" >> $ARUN/AM0308_1
   3    3   28-FEB-2009  03:59:31     AIPS      990JUL15_1.1.log
   3    3   28-FEB-2009  03:59:31     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  03:59:31     AIPS      cat /tmp/SETFC@NGC7078_LBAND1.0-1 >> $ARUN/AM0308_1990JUL15_1.1.
   3    3   28-FEB-2009  03:59:31     AIPS      log
   3    5   28-FEB-2009  03:59:31     AIPS      '    NOW STARTING WITH SOURCE  :5  =NGC7078'
   3    5   28-FEB-2009  03:59:31     AIPS      ' '
   3    5   28-FEB-2009  03:59:31     IMAGR     Task IMAGR  (release of 31DEC07) begins
   3    2   28-FEB-2009  03:59:31     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:59:31     IMAGR     ZTXOP2: /tmp/SETFC@NGC7078_LBAND1.0-1
   3    3   28-FEB-2009  03:59:31     IMAGR     FIELDF: Final field parameters and # read are:
   3    3   28-FEB-2009  03:59:31     IMAGR     Field    1 2036 2036 -6.2266E-02 -1.6867E-02          0
   3    3   28-FEB-2009  03:59:31     IMAGR     Field    2 2036 2036 -6.2266E-02 -9.1962E+02          0
   3    3   28-FEB-2009  03:59:31     IMAGR     Field    3 2036 2036 -7.9597E+02 -4.6012E+02          0
   3    3   28-FEB-2009  03:59:31     IMAGR     Field    4 2036 2036  7.9599E+02 -4.6012E+02          0
   3    3   28-FEB-2009  03:59:31     IMAGR     Field    5 2036 2036 -7.9685E+02  4.5948E+02          0
   3    3   28-FEB-2009  03:59:31     IMAGR     Field    6 2036 2036  7.9673E+02  4.5948E+02          0
   3    3   28-FEB-2009  03:59:31     IMAGR     Field    7 2036 2036 -6.2266E-02  9.1958E+02          0
   3    3   28-FEB-2009  03:59:31     IMAGR     Field    8  246  246  8.8209E+01 -1.1586E+03          0
   3    2   28-FEB-2009  03:59:31     IMAGR     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  03:59:31     IMAGR     ZTXOP2: /tmp/SETFC@NGC7078_LBAND1.0-1
   3    7   28-FEB-2009  03:59:31     IMAGR     WINDF: Number of clean boxes/field read as follows:
   3    3   28-FEB-2009  03:59:31     IMAGR     Field 01:   1  Field 02:   1  Field 03:   1  Field 04:   1
   3    3   28-FEB-2009  03:59:31     IMAGR     Field 05:   1  Field 06:   1  Field 07:   1  Field 08:   1
   3    2   28-FEB-2009  03:59:31     IMAGR     Create NGC7078     .IMAGR .   1 (UV)  on disk  1  cno   37
   3    4   28-FEB-2009  03:59:31     IMAGR     Beginning channel    1 through    1 with  2 IFs
   3    3   28-FEB-2009  03:59:32     IMAGR     IMACPY: Copied   174806 visibilities to be imaged
   3    2   28-FEB-2009  03:59:32     IMAGR     QINIT: did a GET  of   20480 Kwords, OFF        -91576653
   3    2   28-FEB-2009  03:59:32     IMAGR     UVWAIT: begin finding uniform weights
   3    2   28-FEB-2009  03:59:32     IMAGR     UVWAIT: Average grid weight  5.772E+04
   3    2   28-FEB-2009  03:59:32     IMAGR     UVWAIT: Adding temperance S  1.154E+04
   3    2   28-FEB-2009  03:59:32     IMAGR     UVWAIT: begin applying uniform or other weights
   3    4   28-FEB-2009  03:59:32     IMAGR     UVWAIT: Sum of weights in  4.411E+08 and out  8.775E+08
   3    4   28-FEB-2009  03:59:32     IMAGR     UVWAIT: Noise is increased by a factor 1.178 due to weighting
   3    4   28-FEB-2009  03:59:32     IMAGR     UVWAIT: Average summed weight  5.771E+04 over     349612 vis
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .IBM001.   1 (MA)  on disk  1  cno   38
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .IBM002.   1 (MA)  on disk  1  cno   39
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .IBM003.   1 (MA)  on disk  1  cno   40
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .IBM004.   1 (MA)  on disk  1  cno   41
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .IBM005.   1 (MA)  on disk  1  cno   42
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .IBM006.   1 (MA)  on disk  1  cno   43
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .IBM007.   1 (MA)  on disk  1  cno   44
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .IBM008.   1 (MA)  on disk  1  cno   45
   3    2   28-FEB-2009  03:59:32     IMAGR     Create NGC7078     .ICL001.   1 (MA)  on disk  1  cno   46
   3    2   28-FEB-2009  03:59:33     IMAGR     Create NGC7078     .ICL002.   1 (MA)  on disk  1  cno   47
   3    2   28-FEB-2009  03:59:33     IMAGR     Create NGC7078     .ICL003.   1 (MA)  on disk  1  cno   48
   3    2   28-FEB-2009  03:59:33     IMAGR     Create NGC7078     .ICL004.   1 (MA)  on disk  1  cno   49
   3    2   28-FEB-2009  03:59:33     IMAGR     Create NGC7078     .ICL005.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  03:59:33     IMAGR     Create NGC7078     .ICL006.   1 (MA)  on disk  1  cno   51
   3    2   28-FEB-2009  03:59:33     IMAGR     Create NGC7078     .ICL007.   1 (MA)  on disk  1  cno   52
   3    2   28-FEB-2009  03:59:33     IMAGR     Create NGC7078     .ICL008.   1 (MA)  on disk  1  cno   53
   3    2   28-FEB-2009  03:59:34     IMAGR     GRDFLT: X and Y convolution type = SPHEROIDAL
   3    2   28-FEB-2009  03:59:34     IMAGR     GRDFLT: X and Y parms =  3.0000  1.0000
   3    2   28-FEB-2009  03:59:34     IMAGR     GRDFLT: convolution function sampled every 1/100 of a cell
   3    2   28-FEB-2009  03:59:34     IMAGR     GRDMEM: Ave    2 Channels; 1.464900E+09 to 1.514900E+09 Hz
   3    4   28-FEB-2009  03:59:34     IMAGR     Field   1 Sum of gridding weights =  9.31604E+09
   3    4   28-FEB-2009  03:59:35     IMAGR     Field   1 Beam min =  -83.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:59:35     IMAGR     Field   1 fit FWHM =    3.811 x    1.532      arcsec, PA=   85.5
   3    4   28-FEB-2009  03:59:35     IMAGR     Field   2 Sum of gridding weights =  9.31607E+09
   3    4   28-FEB-2009  03:59:35     IMAGR     Field   2 Beam min =  -83.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:59:35     IMAGR     Field   2 fit FWHM =    3.811 x    1.535      arcsec, PA=   85.5
   3    4   28-FEB-2009  03:59:36     IMAGR     Field   3 Sum of gridding weights =  9.31607E+09
   3    4   28-FEB-2009  03:59:39     IMAGR     Field   3 Beam min =  -83.9 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:59:39     IMAGR     Field   3 fit FWHM =    3.812 x    1.533      arcsec, PA=   85.4
   3    4   28-FEB-2009  03:59:39     IMAGR     Field   4 Sum of gridding weights =  9.31607E+09
   3    4   28-FEB-2009  03:59:40     IMAGR     Field   4 Beam min =  -83.7 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:59:40     IMAGR     Field   4 fit FWHM =    3.810 x    1.534      arcsec, PA=   85.7
   3    4   28-FEB-2009  03:59:40     IMAGR     Field   5 Sum of gridding weights =  9.31607E+09
   3    4   28-FEB-2009  03:59:40     IMAGR     Field   5 Beam min =  -84.0 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:59:40     IMAGR     Field   5 fit FWHM =    3.812 x    1.530      arcsec, PA=   85.4
   3    4   28-FEB-2009  03:59:41     IMAGR     Field   6 Sum of gridding weights =  9.31607E+09
   3    4   28-FEB-2009  03:59:41     IMAGR     Field   6 Beam min =  -83.7 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:59:41     IMAGR     Field   6 fit FWHM =    3.810 x    1.531      arcsec, PA=   85.7
   3    4   28-FEB-2009  03:59:42     IMAGR     Field   7 Sum of gridding weights =  9.31606E+09
   3    4   28-FEB-2009  03:59:42     IMAGR     Field   7 Beam min =  -83.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:59:42     IMAGR     Field   7 fit FWHM =    3.811 x    1.529      arcsec, PA=   85.5
   3    4   28-FEB-2009  03:59:42     IMAGR     Field   8 Sum of gridding weights =  9.31610E+09
   3    4   28-FEB-2009  03:59:42     IMAGR     Field   8 Beam min =  -83.8 MilliJy, max =    1.0      Jy
   3    4   28-FEB-2009  03:59:42     IMAGR     Field   8 fit FWHM =    3.811 x    1.535      arcsec, PA=   85.5
   3    4   28-FEB-2009  03:59:42     IMAGR     CLBHIS: minimum component 0.302 of current peak
   3    4   28-FEB-2009  03:59:43     IMAGR     Field   1 min =   -1.9 MilliJy,max =   14.1 MilliJy
   3    4   28-FEB-2009  03:59:44     IMAGR     Field   2 min = -687.6 MicroJy,max =  998.1 MicroJy
   3    4   28-FEB-2009  03:59:45     IMAGR     Field   3 min = -848.8 MicroJy,max =  840.6 MicroJy
   3    4   28-FEB-2009  03:59:46     IMAGR     Field   4 min = -749.3 MicroJy,max =  634.9 MicroJy
   3    4   28-FEB-2009  03:59:47     IMAGR     Field   5 min = -529.0 MicroJy,max =  947.7 MicroJy
   3    4   28-FEB-2009  03:59:48     IMAGR     Field   6 min = -500.3 MicroJy,max =  797.5 MicroJy
   3    4   28-FEB-2009  03:59:49     IMAGR     Field   7 min = -735.1 MicroJy,max =    1.0 MilliJy
   3    4   28-FEB-2009  03:59:50     IMAGR     Field   8 min = -446.1 MicroJy,max =  670.9 MicroJy
   3    2   28-FEB-2009  03:59:51     IMAGR     BGC Clean: using 1255 cell beam + residuals >   523.26 MicroJy
   3    2   28-FEB-2009  03:59:51     IMAGR        14351 Residual map points loaded
   3    4   28-FEB-2009  03:59:51     IMAGR     Field    1 min allowed flux  =    4.248 MilliJy iter=       34
   3    3   28-FEB-2009  03:59:51     IMAGR     Field    1 Clean flux density=   26.519 MilliJy       34 comps
   3    3   28-FEB-2009  03:59:51     IMAGR     Total Cleaned flux density     =   26.519 MilliJy       34 comps
   3    4   28-FEB-2009  03:59:51     IMAGR     SETDO3: imaging done with multiple tangent planes
   3    2   28-FEB-2009  03:59:51     IMAGR     VISDFT: Begin DFT component subtraction
   3    2   28-FEB-2009  03:59:51     IMAGR     VISDFT: Model components of type Point
   3    3   28-FEB-2009  03:59:51     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  03:59:54     IMAGR     Field   1 min = -702.9 MicroJy,max =    4.0 MilliJy
   3    2   28-FEB-2009  03:59:55     IMAGR     BGC Clean: using  103 cell beam + residuals >   396.29 MicroJy
   3    2   28-FEB-2009  03:59:55     IMAGR         2153 Residual map points loaded
   3    4   28-FEB-2009  03:59:55     IMAGR     Field    1 min allowed flux  =    1.180 MilliJy iter=       93
   3    3   28-FEB-2009  03:59:55     IMAGR     Field    1 Clean flux density=   39.514 MilliJy       93 comps
   3    3   28-FEB-2009  03:59:55     IMAGR     Total Cleaned flux density     =   39.514 MilliJy       93 comps
   3    2   28-FEB-2009  03:59:55     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  03:59:55     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:00:01     IMAGR     Field   1 min = -463.3 MicroJy,max =    1.2 MilliJy
   3    2   28-FEB-2009  04:00:02     IMAGR     BGC Clean: using  103 cell beam + residuals >   390.51 MicroJy
   3    2   28-FEB-2009  04:00:02     IMAGR          433 Residual map points loaded
   3    4   28-FEB-2009  04:00:02     IMAGR     Field    1 min algorithm flux=  597.488 MicroJy iter=      145
   3    3   28-FEB-2009  04:00:02     IMAGR     Field    1 Clean flux density=   43.815 MilliJy      145 comps
   3    3   28-FEB-2009  04:00:02     IMAGR     Total Cleaned flux density     =   43.815 MilliJy      145 comps
   3    2   28-FEB-2009  04:00:02     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:00:02     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:00:06     IMAGR     Field   7 min = -278.1 MicroJy,max =    1.0 MilliJy
   3    2   28-FEB-2009  04:00:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   382.70 MicroJy
   3    2   28-FEB-2009  04:00:07     IMAGR          227 Residual map points loaded
   3    4   28-FEB-2009  04:00:07     IMAGR     Field    7 min algorithm flux=  478.169 MicroJy iter=       39
   3    3   28-FEB-2009  04:00:07     IMAGR     Field    7 Clean flux density=    2.540 MilliJy       39 comps
   3    3   28-FEB-2009  04:00:07     IMAGR     Total Cleaned flux density     =   46.355 MilliJy      184 comps
   3    2   28-FEB-2009  04:00:07     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:00:07     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:00:10     IMAGR     Field   2 min = -291.8 MicroJy,max =  568.7 MicroJy
   3    3   28-FEB-2009  04:00:10     IMAGR     TRY ANOTHER FIELD: this is  5.422E-04 < Second best  9.040E-04
   3    4   28-FEB-2009  04:00:11     IMAGR     Field   5 min = -259.4 MicroJy,max =  917.2 MicroJy
   3    2   28-FEB-2009  04:00:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   314.60 MicroJy
   3    2   28-FEB-2009  04:00:12     IMAGR          360 Residual map points loaded
   3    4   28-FEB-2009  04:00:12     IMAGR     Field    5 min algorithm flux=  404.159 MicroJy iter=       54
   3    3   28-FEB-2009  04:00:12     IMAGR     Field    5 Clean flux density=    3.011 MilliJy       54 comps
   3    3   28-FEB-2009  04:00:12     IMAGR     Total Cleaned flux density     =   49.366 MilliJy      238 comps
   3    2   28-FEB-2009  04:00:12     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:00:12     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:00:17     IMAGR     Field   3 min = -293.7 MicroJy,max =  814.2 MicroJy
   3    2   28-FEB-2009  04:00:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   304.25 MicroJy
   3    2   28-FEB-2009  04:00:20     IMAGR          143 Residual map points loaded
   3    4   28-FEB-2009  04:00:20     IMAGR     Field    3 min algorithm flux=  345.874 MicroJy iter=       32
   3    3   28-FEB-2009  04:00:20     IMAGR     Field    3 Clean flux density=    1.524 MilliJy       32 comps
   3    3   28-FEB-2009  04:00:20     IMAGR     Total Cleaned flux density     =   50.890 MilliJy      270 comps
   3    2   28-FEB-2009  04:00:20     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:00:20     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:00:22     IMAGR     Field   6 min = -245.4 MicroJy,max =  616.2 MicroJy
   3    3   28-FEB-2009  04:00:22     IMAGR     TRY ANOTHER FIELD: this is  5.872E-04 < Second best  7.156E-04
   3    4   28-FEB-2009  04:00:23     IMAGR     Field   4 min = -272.8 MicroJy,max =  428.7 MicroJy
   3    3   28-FEB-2009  04:00:23     IMAGR     TRY ANOTHER FIELD: this is  4.091E-04 < Second best  6.416E-04
   3    4   28-FEB-2009  04:00:24     IMAGR     Field   8 min = -255.4 MicroJy,max =  563.3 MicroJy
   3    3   28-FEB-2009  04:00:25     IMAGR     TRY ANOTHER FIELD: this is  5.379E-04 < Second best  5.872E-04
   3    2   28-FEB-2009  04:00:26     IMAGR     BGC Clean: using  103 cell beam + residuals >   175.05 MicroJy
   3    2   28-FEB-2009  04:00:26     IMAGR         1632 Residual map points loaded
   3    4   28-FEB-2009  04:00:26     IMAGR     Field    6 min algorithm flux=  261.643 MicroJy iter=      122
   3    3   28-FEB-2009  04:00:26     IMAGR     Field    6 Clean flux density=    4.388 MilliJy      122 comps
   3    3   28-FEB-2009  04:00:26     IMAGR     Total Cleaned flux density     =   55.278 MilliJy      392 comps
   3    2   28-FEB-2009  04:00:27     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:00:27     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:00:37     IMAGR     Field   1 min = -420.2 MicroJy,max =  599.3 MicroJy
   3    2   28-FEB-2009  04:00:38     IMAGR     BGC Clean: using  103 cell beam + residuals >   169.51 MicroJy
   3    2   28-FEB-2009  04:00:38     IMAGR         4775 Residual map points loaded
   3    4   28-FEB-2009  04:00:38     IMAGR     Field    1 min algorithm flux=  252.408 MicroJy iter=      320
   3    3   28-FEB-2009  04:00:38     IMAGR     Field    1 Clean flux density=   49.413 MilliJy      320 comps
   3    3   28-FEB-2009  04:00:38     IMAGR     Total Cleaned flux density     =   60.877 MilliJy      567 comps
   3    2   28-FEB-2009  04:00:44     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:00:44     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:00:45     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:00:46     IMAGR     Field   2 min = -269.6 MicroJy,max =  567.9 MicroJy
   3    2   28-FEB-2009  04:00:49     IMAGR     BGC Clean: using  103 cell beam + residuals >   168.36 MicroJy
   3    2   28-FEB-2009  04:00:49     IMAGR         2864 Residual map points loaded
   3    4   28-FEB-2009  04:00:49     IMAGR     Field    2 min algorithm flux=  231.255 MicroJy iter=      170
   3    3   28-FEB-2009  04:00:49     IMAGR     Field    2 Clean flux density=    5.206 MilliJy      170 comps
   3    3   28-FEB-2009  04:00:49     IMAGR     Total Cleaned flux density     =   66.082 MilliJy      737 comps
   3    2   28-FEB-2009  04:00:50     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:00:50     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:00:50     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:00:51     IMAGR     Field   8 min = -200.9 MicroJy,max =  237.6 MicroJy
   3    3   28-FEB-2009  04:00:51     IMAGR     TRY ANOTHER FIELD: this is  2.279E-04 < Second best  4.552E-04
   3    4   28-FEB-2009  04:00:51     IMAGR     Field   7 min = -251.6 MicroJy,max =  470.8 MicroJy
   3    2   28-FEB-2009  04:00:53     IMAGR     BGC Clean: using  103 cell beam + residuals >   165.45 MicroJy
   3    2   28-FEB-2009  04:00:53     IMAGR         1631 Residual map points loaded
   3    4   28-FEB-2009  04:00:53     IMAGR     Field    7 min algorithm flux=  199.349 MicroJy iter=      177
   3    3   28-FEB-2009  04:00:53     IMAGR     Field    7 Clean flux density=    5.853 MilliJy      177 comps
   3    3   28-FEB-2009  04:00:53     IMAGR     Total Cleaned flux density     =   69.395 MilliJy      875 comps
   3    2   28-FEB-2009  04:00:54     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:00:54     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:00:54     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:00:55     IMAGR     Field   4 min = -262.9 MicroJy,max =  351.9 MicroJy
   3    3   28-FEB-2009  04:00:56     IMAGR     TRY ANOTHER FIELD: this is  3.360E-04 < Second best  3.848E-04
   3    4   28-FEB-2009  04:00:57     IMAGR     Field   5 min = -246.6 MicroJy,max =  404.5 MicroJy
   3    2   28-FEB-2009  04:00:59     IMAGR     BGC Clean: using  103 cell beam + residuals >   162.43 MicroJy
   3    2   28-FEB-2009  04:00:59     IMAGR         1448 Residual map points loaded
   3    4   28-FEB-2009  04:00:59     IMAGR     Field    5 min algorithm flux= -190.543 MicroJy iter=      192
   3    3   28-FEB-2009  04:00:59     IMAGR     Field    5 Clean flux density=    6.154 MilliJy      192 comps
   3    3   28-FEB-2009  04:00:59     IMAGR     Total Cleaned flux density     =   72.539 MilliJy     1013 comps
   3    2   28-FEB-2009  04:01:00     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:01:00     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:00     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:01:02     IMAGR     Field   4 min = -264.9 MicroJy,max =  351.5 MicroJy
   3    2   28-FEB-2009  04:01:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   162.43 MicroJy
   3    2   28-FEB-2009  04:01:03     IMAGR          943 Residual map points loaded
   3    4   28-FEB-2009  04:01:03     IMAGR     Field    4 min algorithm flux= -181.639 MicroJy iter=      104
   3    3   28-FEB-2009  04:01:03     IMAGR     Field    4 Clean flux density=    1.079 MilliJy      104 comps
   3    3   28-FEB-2009  04:01:03     IMAGR     Total Cleaned flux density     =   73.618 MilliJy     1117 comps
   3    2   28-FEB-2009  04:01:03     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:01:03     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:01:10     IMAGR     Field   3 min = -238.6 MicroJy,max =  352.7 MicroJy
   3    2   28-FEB-2009  04:01:13     IMAGR     BGC Clean: using  103 cell beam + residuals >   161.08 MicroJy
   3    2   28-FEB-2009  04:01:14     IMAGR         1170 Residual map points loaded
   3    4   28-FEB-2009  04:01:14     IMAGR     Field    3 min algorithm flux=  181.528 MicroJy iter=      157
   3    3   28-FEB-2009  04:01:14     IMAGR     Field    3 Clean flux density=    3.413 MilliJy      157 comps
   3    3   28-FEB-2009  04:01:14     IMAGR     Total Cleaned flux density     =   75.507 MilliJy     1242 comps
   3    2   28-FEB-2009  04:01:14     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:01:14     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:01:23     IMAGR     Field   6 min = -232.9 MicroJy,max =  255.3 MicroJy
   3    2   28-FEB-2009  04:01:24     IMAGR     BGC Clean: using  103 cell beam + residuals >   159.47 MicroJy
   3    2   28-FEB-2009  04:01:24     IMAGR         1266 Residual map points loaded
   3    4   28-FEB-2009  04:01:24     IMAGR     Field    6 min algorithm flux= -178.494 MicroJy iter=      267
   3    3   28-FEB-2009  04:01:24     IMAGR     Field    6 Clean flux density=    6.529 MilliJy      267 comps
   3    3   28-FEB-2009  04:01:24     IMAGR     Total Cleaned flux density     =   77.648 MilliJy     1387 comps
   3    2   28-FEB-2009  04:01:25     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:01:25     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:26     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:01:26     IMAGR     Field   1 min = -248.0 MicroJy,max =  267.5 MicroJy
   3    2   28-FEB-2009  04:01:28     IMAGR     BGC Clean: using  103 cell beam + residuals >   155.73 MicroJy
   3    2   28-FEB-2009  04:01:28     IMAGR         4581 Residual map points loaded
   3    4   28-FEB-2009  04:01:28     IMAGR     Field    1 min algorithm flux= -187.098 MicroJy iter=      608
   3    3   28-FEB-2009  04:01:28     IMAGR     Field    1 Clean flux density=   51.401 MilliJy      608 comps
   3    3   28-FEB-2009  04:01:28     IMAGR     Total Cleaned flux density     =   79.635 MilliJy     1675 comps
   3    2   28-FEB-2009  04:01:30     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:01:30     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:32     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:01:32     IMAGR     Field   8 min = -197.9 MicroJy,max =  240.3 MicroJy
   3    2   28-FEB-2009  04:01:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   155.70 MicroJy
   3    2   28-FEB-2009  04:01:33     IMAGR          582 Residual map points loaded
   3    4   28-FEB-2009  04:01:33     IMAGR     Field    8 min algorithm flux=  164.607 MicroJy iter=       84
   3    3   28-FEB-2009  04:01:33     IMAGR     Field    8 Clean flux density=    1.399 MilliJy       84 comps
   3    3   28-FEB-2009  04:01:33     IMAGR     Total Cleaned flux density     =   81.034 MilliJy     1759 comps
   3    2   28-FEB-2009  04:01:35     IMAGR     ALGSTB: All    88 Rows In AP (Max    267)
   3    2   28-FEB-2009  04:01:35     IMAGR     ALGSTB field    8 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:35     IMAGR     ALGSTB: Pass   1;   77-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:01:36     IMAGR     Field   2 min = -255.7 MicroJy,max =  225.2 MicroJy
   3    2   28-FEB-2009  04:01:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   152.68 MicroJy
   3    2   28-FEB-2009  04:01:37     IMAGR         2477 Residual map points loaded
   3    4   28-FEB-2009  04:01:37     IMAGR     Field    2 min algorithm flux=  171.323 MicroJy iter=      391
   3    3   28-FEB-2009  04:01:37     IMAGR     Field    2 Clean flux density=    6.289 MilliJy      391 comps
   3    3   28-FEB-2009  04:01:37     IMAGR     Total Cleaned flux density     =   82.118 MilliJy     1980 comps
   3    2   28-FEB-2009  04:01:39     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:01:39     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:40     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:01:41     IMAGR     Field   7 min = -238.0 MicroJy,max =  241.6 MicroJy
   3    2   28-FEB-2009  04:01:42     IMAGR     BGC Clean: using  103 cell beam + residuals >   151.08 MicroJy
   3    2   28-FEB-2009  04:01:42     IMAGR         1625 Residual map points loaded
   3    4   28-FEB-2009  04:01:42     IMAGR     Field    7 min algorithm flux=  165.098 MicroJy iter=      364
   3    3   28-FEB-2009  04:01:42     IMAGR     Field    7 Clean flux density=    6.576 MilliJy      364 comps
   3    3   28-FEB-2009  04:01:42     IMAGR     Total Cleaned flux density     =   82.841 MilliJy     2167 comps
   3    2   28-FEB-2009  04:01:44     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:01:44     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:45     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:01:46     IMAGR     Field   5 min = -245.3 MicroJy,max =  235.8 MicroJy
   3    2   28-FEB-2009  04:01:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   149.86 MicroJy
   3    2   28-FEB-2009  04:01:48     IMAGR         1533 Residual map points loaded
   3    4   28-FEB-2009  04:01:48     IMAGR     Field    5 min algorithm flux= -163.203 MicroJy iter=      388
   3    3   28-FEB-2009  04:01:48     IMAGR     Field    5 Clean flux density=    6.925 MilliJy      388 comps
   3    3   28-FEB-2009  04:01:48     IMAGR     Total Cleaned flux density     =   83.612 MilliJy     2363 comps
   3    2   28-FEB-2009  04:01:50     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:01:50     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:51     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:01:52     IMAGR     Field   1 min = -233.7 MicroJy,max =  239.7 MicroJy
   3    2   28-FEB-2009  04:01:53     IMAGR     BGC Clean: using  103 cell beam + residuals >   147.70 MicroJy
   3    2   28-FEB-2009  04:01:53     IMAGR         4123 Residual map points loaded
   3    4   28-FEB-2009  04:01:53     IMAGR     Field    1 min algorithm flux= -166.512 MicroJy iter=      924
   3    3   28-FEB-2009  04:01:53     IMAGR     Field    1 Clean flux density=   52.306 MilliJy      924 comps
   3    3   28-FEB-2009  04:01:53     IMAGR     Total Cleaned flux density     =   84.518 MilliJy     2679 comps
   3    2   28-FEB-2009  04:01:54     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:01:54     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:55     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:01:56     IMAGR     Field   4 min = -252.8 MicroJy,max =  223.3 MicroJy
   3    2   28-FEB-2009  04:01:57     IMAGR     BGC Clean: using  103 cell beam + residuals >   146.78 MicroJy
   3    2   28-FEB-2009  04:01:57     IMAGR         1354 Residual map points loaded
   3    4   28-FEB-2009  04:01:57     IMAGR     Field    4 min algorithm flux=  157.545 MicroJy iter=      302
   3    3   28-FEB-2009  04:01:57     IMAGR     Field    4 Clean flux density=    1.310 MilliJy      302 comps
   3    3   28-FEB-2009  04:01:57     IMAGR     Total Cleaned flux density     =   84.748 MilliJy     2877 comps
   3    2   28-FEB-2009  04:01:59     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:01:59     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:01:59     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:00     IMAGR     Field   3 min = -220.3 MicroJy,max =  203.7 MicroJy
   3    2   28-FEB-2009  04:02:01     IMAGR     BGC Clean: using  103 cell beam + residuals >   145.70 MicroJy
   3    2   28-FEB-2009  04:02:02     IMAGR         1687 Residual map points loaded
   3    4   28-FEB-2009  04:02:02     IMAGR     Field    3 min algorithm flux=  157.812 MicroJy iter=      401
   3    3   28-FEB-2009  04:02:02     IMAGR     Field    3 Clean flux density=    4.183 MilliJy      401 comps
   3    3   28-FEB-2009  04:02:02     IMAGR     Total Cleaned flux density     =   85.518 MilliJy     3121 comps
   3    2   28-FEB-2009  04:02:03     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:03     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:04     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:05     IMAGR     Field   6 min = -225.2 MicroJy,max =  239.0 MicroJy
   3    2   28-FEB-2009  04:02:06     IMAGR     BGC Clean: using  103 cell beam + residuals >   144.76 MicroJy
   3    2   28-FEB-2009  04:02:06     IMAGR         1436 Residual map points loaded
   3    4   28-FEB-2009  04:02:06     IMAGR     Field    6 min algorithm flux=  154.573 MicroJy iter=      481
   3    3   28-FEB-2009  04:02:06     IMAGR     Field    6 Clean flux density=    7.116 MilliJy      481 comps
   3    3   28-FEB-2009  04:02:06     IMAGR     Total Cleaned flux density     =   86.104 MilliJy     3335 comps
   3    2   28-FEB-2009  04:02:07     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:07     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:08     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:09     IMAGR     Field   2 min = -226.8 MicroJy,max =  210.2 MicroJy
   3    2   28-FEB-2009  04:02:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   143.31 MicroJy
   3    2   28-FEB-2009  04:02:12     IMAGR         2563 Residual map points loaded
   3    4   28-FEB-2009  04:02:12     IMAGR     Field    2 min algorithm flux=  154.907 MicroJy iter=      669
   3    3   28-FEB-2009  04:02:12     IMAGR     Field    2 Clean flux density=    6.606 MilliJy      669 comps
   3    3   28-FEB-2009  04:02:12     IMAGR     Total Cleaned flux density     =   86.421 MilliJy     3613 comps
   3    2   28-FEB-2009  04:02:13     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:13     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:13     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:14     IMAGR     Field   1 min = -227.4 MicroJy,max =  231.7 MicroJy
   3    2   28-FEB-2009  04:02:16     IMAGR     BGC Clean: using  103 cell beam + residuals >   141.66 MicroJy
   3    2   28-FEB-2009  04:02:18     IMAGR         3452 Residual map points loaded
   3    4   28-FEB-2009  04:02:18     IMAGR     Field    1 min algorithm flux= -153.673 MicroJy iter=     1239
   3    3   28-FEB-2009  04:02:18     IMAGR     Field    1 Clean flux density=   52.553 MilliJy     1239 comps
   3    3   28-FEB-2009  04:02:18     IMAGR     Total Cleaned flux density     =   86.668 MilliJy     3928 comps
   3    2   28-FEB-2009  04:02:20     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:20     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:20     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:21     IMAGR     Field   7 min = -231.5 MicroJy,max =  221.9 MicroJy
   3    2   28-FEB-2009  04:02:23     IMAGR     BGC Clean: using  103 cell beam + residuals >   140.52 MicroJy
   3    2   28-FEB-2009  04:02:23     IMAGR         1619 Residual map points loaded
   3    4   28-FEB-2009  04:02:23     IMAGR     Field    7 min algorithm flux= -148.961 MicroJy iter=      602
   3    3   28-FEB-2009  04:02:23     IMAGR     Field    7 Clean flux density=    7.008 MilliJy      602 comps
   3    3   28-FEB-2009  04:02:23     IMAGR     Total Cleaned flux density     =   87.099 MilliJy     4166 comps
   3    2   28-FEB-2009  04:02:25     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:25     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:25     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:26     IMAGR     Field   8 min = -169.9 MicroJy,max =  161.1 MicroJy
   3    2   28-FEB-2009  04:02:26     IMAGR     BGC Clean: using  103 cell beam + residuals >   140.20 MicroJy
   3    2   28-FEB-2009  04:02:26     IMAGR          187 Residual map points loaded
   3    4   28-FEB-2009  04:02:26     IMAGR     Field    8 min algorithm flux=  141.313 MicroJy iter=      116
   3    3   28-FEB-2009  04:02:26     IMAGR     Field    8 Clean flux density=    1.725 MilliJy      116 comps
   3    3   28-FEB-2009  04:02:26     IMAGR     Total Cleaned flux density     =   87.425 MilliJy     4198 comps
   3    2   28-FEB-2009  04:02:26     IMAGR     ALGSTB: All    88 Rows In AP (Max    267)
   3    2   28-FEB-2009  04:02:26     IMAGR     ALGSTB field    8 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:27     IMAGR     ALGSTB: Pass   1;   77-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:28     IMAGR     Field   5 min = -244.5 MicroJy,max =  227.6 MicroJy
   3    2   28-FEB-2009  04:02:30     IMAGR     BGC Clean: using  103 cell beam + residuals >   139.34 MicroJy
   3    2   28-FEB-2009  04:02:30     IMAGR         1911 Residual map points loaded
   3    4   28-FEB-2009  04:02:30     IMAGR     Field    5 min algorithm flux=  148.595 MicroJy iter=      672
   3    3   28-FEB-2009  04:02:30     IMAGR     Field    5 Clean flux density=    7.636 MilliJy      672 comps
   3    3   28-FEB-2009  04:02:30     IMAGR     Total Cleaned flux density     =   88.136 MilliJy     4482 comps
   3    2   28-FEB-2009  04:02:31     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:31     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:31     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:32     IMAGR     Field   3 min = -218.2 MicroJy,max =  202.1 MicroJy
   3    2   28-FEB-2009  04:02:33     IMAGR     BGC Clean: using  103 cell beam + residuals >   138.53 MicroJy
   3    2   28-FEB-2009  04:02:33     IMAGR         1672 Residual map points loaded
   3    4   28-FEB-2009  04:02:33     IMAGR     Field    3 min algorithm flux= -146.714 MicroJy iter=      669
   3    3   28-FEB-2009  04:02:33     IMAGR     Field    3 Clean flux density=    4.422 MilliJy      669 comps
   3    3   28-FEB-2009  04:02:33     IMAGR     Total Cleaned flux density     =   88.375 MilliJy     4750 comps
   3    2   28-FEB-2009  04:02:34     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:34     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:38     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:39     IMAGR     Field   4 min = -243.8 MicroJy,max =  221.5 MicroJy
   3    2   28-FEB-2009  04:02:40     IMAGR     BGC Clean: using  103 cell beam + residuals >   137.75 MicroJy
   3    2   28-FEB-2009  04:02:40     IMAGR         1563 Residual map points loaded
   3    4   28-FEB-2009  04:02:40     IMAGR     Field    4 min algorithm flux= -145.389 MicroJy iter=      568
   3    3   28-FEB-2009  04:02:40     IMAGR     Field    4 Clean flux density=    1.512 MilliJy      568 comps
   3    3   28-FEB-2009  04:02:40     IMAGR     Total Cleaned flux density     =   88.578 MilliJy     5016 comps
   3    2   28-FEB-2009  04:02:41     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:41     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:42     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:43     IMAGR     Field   2 min = -219.1 MicroJy,max =  200.2 MicroJy
   3    2   28-FEB-2009  04:02:45     IMAGR     BGC Clean: using  103 cell beam + residuals >   136.43 MicroJy
   3    2   28-FEB-2009  04:02:45     IMAGR         2179 Residual map points loaded
   3    4   28-FEB-2009  04:02:45     IMAGR     Field    2 min algorithm flux=  144.541 MicroJy iter=      971
   3    3   28-FEB-2009  04:02:45     IMAGR     Field    2 Clean flux density=    6.577 MilliJy      971 comps
   3    3   28-FEB-2009  04:02:45     IMAGR     Total Cleaned flux density     =   88.548 MilliJy     5318 comps
   3    2   28-FEB-2009  04:02:47     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:47     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:48     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:49     IMAGR     Field   6 min = -222.3 MicroJy,max =  222.2 MicroJy
   3    2   28-FEB-2009  04:02:49     IMAGR     BGC Clean: using  103 cell beam + residuals >   135.69 MicroJy
   3    2   28-FEB-2009  04:02:50     IMAGR         1498 Residual map points loaded
   3    4   28-FEB-2009  04:02:50     IMAGR     Field    6 min algorithm flux= -142.390 MicroJy iter=      744
   3    3   28-FEB-2009  04:02:50     IMAGR     Field    6 Clean flux density=    7.337 MilliJy      744 comps
   3    3   28-FEB-2009  04:02:50     IMAGR     Total Cleaned flux density     =   88.770 MilliJy     5581 comps
   3    2   28-FEB-2009  04:02:52     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:52     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:53     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:54     IMAGR     Field   1 min = -221.5 MicroJy,max =  219.4 MicroJy
   3    2   28-FEB-2009  04:02:54     IMAGR     BGC Clean: using  103 cell beam + residuals >   134.11 MicroJy
   3    2   28-FEB-2009  04:02:54     IMAGR         3214 Residual map points loaded
   3    4   28-FEB-2009  04:02:54     IMAGR     Field    1 min algorithm flux=  142.914 MicroJy iter=     1611
   3    3   28-FEB-2009  04:02:54     IMAGR     Field    1 Clean flux density=   52.556 MilliJy     1611 comps
   3    3   28-FEB-2009  04:02:54     IMAGR     Total Cleaned flux density     =   88.773 MilliJy     5953 comps
   3    2   28-FEB-2009  04:02:56     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:02:56     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:02:58     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:02:59     IMAGR     Field   7 min = -226.3 MicroJy,max =  216.7 MicroJy
   3    2   28-FEB-2009  04:03:00     IMAGR     BGC Clean: using  103 cell beam + residuals >   133.24 MicroJy
   3    2   28-FEB-2009  04:03:00     IMAGR         1375 Residual map points loaded
   3    4   28-FEB-2009  04:03:00     IMAGR     Field    7 min algorithm flux= -139.085 MicroJy iter=      863
   3    3   28-FEB-2009  04:03:00     IMAGR     Field    7 Clean flux density=    7.396 MilliJy      863 comps
   3    3   28-FEB-2009  04:03:00     IMAGR     Total Cleaned flux density     =   89.161 MilliJy     6214 comps
   3    2   28-FEB-2009  04:03:01     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:01     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:01     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:02     IMAGR     Field   5 min = -243.0 MicroJy,max =  226.4 MicroJy
   3    2   28-FEB-2009  04:03:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   132.43 MicroJy
   3    2   28-FEB-2009  04:03:03     IMAGR         1864 Residual map points loaded
   3    4   28-FEB-2009  04:03:03     IMAGR     Field    5 min algorithm flux=  139.185 MicroJy iter=      992
   3    3   28-FEB-2009  04:03:03     IMAGR     Field    5 Clean flux density=    7.690 MilliJy      992 comps
   3    3   28-FEB-2009  04:03:03     IMAGR     Total Cleaned flux density     =   89.215 MilliJy     6534 comps
   3    2   28-FEB-2009  04:03:04     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:04     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:05     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:06     IMAGR     Field   3 min = -211.3 MicroJy,max =  208.0 MicroJy
   3    2   28-FEB-2009  04:03:07     IMAGR     BGC Clean: using  103 cell beam + residuals >   131.68 MicroJy
   3    2   28-FEB-2009  04:03:07     IMAGR         1701 Residual map points loaded
   3    4   28-FEB-2009  04:03:07     IMAGR     Field    3 min algorithm flux= -137.741 MicroJy iter=      970
   3    3   28-FEB-2009  04:03:07     IMAGR     Field    3 Clean flux density=    4.603 MilliJy      970 comps
   3    3   28-FEB-2009  04:03:07     IMAGR     Total Cleaned flux density     =   89.395 MilliJy     6835 comps
   3    2   28-FEB-2009  04:03:09     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:09     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:10     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:11     IMAGR     Field   4 min = -236.5 MicroJy,max =  212.8 MicroJy
   3    2   28-FEB-2009  04:03:12     IMAGR     BGC Clean: using  103 cell beam + residuals >   130.95 MicroJy
   3    2   28-FEB-2009  04:03:12     IMAGR         1619 Residual map points loaded
   3    4   28-FEB-2009  04:03:12     IMAGR     Field    4 min algorithm flux= -136.942 MicroJy iter=      882
   3    3   28-FEB-2009  04:03:12     IMAGR     Field    4 Clean flux density=    1.575 MilliJy      882 comps
   3    3   28-FEB-2009  04:03:12     IMAGR     Total Cleaned flux density     =   89.458 MilliJy     7149 comps
   3    2   28-FEB-2009  04:03:14     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:14     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:15     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:16     IMAGR     Field   2 min = -208.8 MicroJy,max =  192.0 MicroJy
   3    2   28-FEB-2009  04:03:16     IMAGR     BGC Clean: using  103 cell beam + residuals >   129.89 MicroJy
   3    2   28-FEB-2009  04:03:16     IMAGR         2025 Residual map points loaded
   3    4   28-FEB-2009  04:03:16     IMAGR     Field    2 min algorithm flux=  135.719 MicroJy iter=     1292
   3    3   28-FEB-2009  04:03:16     IMAGR     Field    2 Clean flux density=    6.785 MilliJy     1292 comps
   3    3   28-FEB-2009  04:03:16     IMAGR     Total Cleaned flux density     =   89.666 MilliJy     7470 comps
   3    2   28-FEB-2009  04:03:18     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:18     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:19     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:20     IMAGR     Field   1 min = -203.7 MicroJy,max =  212.6 MicroJy
   3    2   28-FEB-2009  04:03:21     IMAGR     BGC Clean: using  103 cell beam + residuals >   128.59 MicroJy
   3    2   28-FEB-2009  04:03:21     IMAGR         2503 Residual map points loaded
   3    4   28-FEB-2009  04:03:21     IMAGR     Field    1 min algorithm flux= -134.843 MicroJy iter=     1976
   3    3   28-FEB-2009  04:03:21     IMAGR     Field    1 Clean flux density=   52.872 MilliJy     1976 comps
   3    3   28-FEB-2009  04:03:21     IMAGR     Total Cleaned flux density     =   89.982 MilliJy     7835 comps
   3    2   28-FEB-2009  04:03:22     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:22     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:23     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:24     IMAGR     Field   6 min = -216.1 MicroJy,max =  216.6 MicroJy
   3    2   28-FEB-2009  04:03:25     IMAGR     BGC Clean: using  103 cell beam + residuals >   127.84 MicroJy
   3    2   28-FEB-2009  04:03:25     IMAGR         1534 Residual map points loaded
   3    4   28-FEB-2009  04:03:25     IMAGR     Field    6 min algorithm flux=  133.064 MicroJy iter=     1064
   3    3   28-FEB-2009  04:03:25     IMAGR     Field    6 Clean flux density=    7.603 MilliJy     1064 comps
   3    3   28-FEB-2009  04:03:25     IMAGR     Total Cleaned flux density     =   90.248 MilliJy     8155 comps
   3    2   28-FEB-2009  04:03:27     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:27     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:27     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:28     IMAGR     Field   8 min = -154.6 MicroJy,max =  139.6 MicroJy
   3    2   28-FEB-2009  04:03:28     IMAGR     BGC Clean: using  103 cell beam + residuals >   127.68 MicroJy
   3    2   28-FEB-2009  04:03:28     IMAGR           35 Residual map points loaded
   3    4   28-FEB-2009  04:03:28     IMAGR     Field    8 min algorithm flux=  127.004 MicroJy iter=      134
   3    3   28-FEB-2009  04:03:28     IMAGR     Field    8 Clean flux density=    1.803 MilliJy      134 comps
   3    3   28-FEB-2009  04:03:28     IMAGR     Total Cleaned flux density     =   90.327 MilliJy     8173 comps
   3    2   28-FEB-2009  04:03:29     IMAGR     ALGSTB: All    88 Rows In AP (Max    267)
   3    2   28-FEB-2009  04:03:29     IMAGR     ALGSTB field    8 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:31     IMAGR     ALGSTB: Pass   1;   77-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:32     IMAGR     Field   5 min = -243.9 MicroJy,max =  222.0 MicroJy
   3    2   28-FEB-2009  04:03:32     IMAGR     BGC Clean: using  103 cell beam + residuals >   126.97 MicroJy
   3    2   28-FEB-2009  04:03:32     IMAGR         1749 Residual map points loaded
   3    4   28-FEB-2009  04:03:32     IMAGR     Field    5 min algorithm flux=  132.038 MicroJy iter=     1318
   3    3   28-FEB-2009  04:03:32     IMAGR     Field    5 Clean flux density=    8.177 MilliJy     1318 comps
   3    3   28-FEB-2009  04:03:32     IMAGR     Total Cleaned flux density     =   90.814 MilliJy     8499 comps
   3    2   28-FEB-2009  04:03:35     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:35     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:36     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:37     IMAGR     Field   7 min = -224.2 MicroJy,max =  210.0 MicroJy
   3    2   28-FEB-2009  04:03:37     IMAGR     BGC Clean: using  103 cell beam + residuals >   126.23 MicroJy
   3    2   28-FEB-2009  04:03:37     IMAGR         1366 Residual map points loaded
   3    4   28-FEB-2009  04:03:37     IMAGR     Field    7 min algorithm flux=  130.665 MicroJy iter=     1160
   3    3   28-FEB-2009  04:03:37     IMAGR     Field    7 Clean flux density=    7.355 MilliJy     1160 comps
   3    3   28-FEB-2009  04:03:37     IMAGR     Total Cleaned flux density     =   90.773 MilliJy     8796 comps
   3    2   28-FEB-2009  04:03:38     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:38     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:39     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:40     IMAGR     Field   3 min = -208.1 MicroJy,max =  204.6 MicroJy
   3    2   28-FEB-2009  04:03:40     IMAGR     BGC Clean: using  103 cell beam + residuals >   125.55 MicroJy
   3    2   28-FEB-2009  04:03:41     IMAGR         1863 Residual map points loaded
   3    4   28-FEB-2009  04:03:41     IMAGR     Field    3 min algorithm flux=  130.601 MicroJy iter=     1324
   3    3   28-FEB-2009  04:03:41     IMAGR     Field    3 Clean flux density=    4.528 MilliJy     1324 comps
   3    3   28-FEB-2009  04:03:41     IMAGR     Total Cleaned flux density     =   90.698 MilliJy     9150 comps
   3    2   28-FEB-2009  04:03:41     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:41     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:42     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:43     IMAGR     Field   4 min = -231.7 MicroJy,max =  209.4 MicroJy
   3    2   28-FEB-2009  04:03:44     IMAGR     BGC Clean: using  103 cell beam + residuals >   124.81 MicroJy
   3    2   28-FEB-2009  04:03:44     IMAGR         1653 Residual map points loaded
   3    4   28-FEB-2009  04:03:44     IMAGR     Field    4 min algorithm flux= -129.438 MicroJy iter=     1222
   3    3   28-FEB-2009  04:03:44     IMAGR     Field    4 Clean flux density=    1.581 MilliJy     1222 comps
   3    3   28-FEB-2009  04:03:44     IMAGR     Total Cleaned flux density     =   90.703 MilliJy     9490 comps
   3    2   28-FEB-2009  04:03:45     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:45     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:45     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:46     IMAGR     Field   2 min = -205.7 MicroJy,max =  186.3 MicroJy
   3    2   28-FEB-2009  04:03:47     IMAGR     BGC Clean: using  103 cell beam + residuals >   123.89 MicroJy
   3    2   28-FEB-2009  04:03:47     IMAGR         1859 Residual map points loaded
   3    4   28-FEB-2009  04:03:47     IMAGR     Field    2 min algorithm flux= -128.467 MicroJy iter=     1641
   3    3   28-FEB-2009  04:03:47     IMAGR     Field    2 Clean flux density=    6.850 MilliJy     1641 comps
   3    3   28-FEB-2009  04:03:47     IMAGR     Total Cleaned flux density     =   90.769 MilliJy     9839 comps
   3    2   28-FEB-2009  04:03:49     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:49     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:50     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:51     IMAGR     Field   1 min = -195.2 MicroJy,max =  197.8 MicroJy
   3    2   28-FEB-2009  04:03:52     IMAGR     BGC Clean: using  103 cell beam + residuals >   122.73 MicroJy
   3    2   28-FEB-2009  04:03:52     IMAGR         2097 Residual map points loaded
   3    4   28-FEB-2009  04:03:52     IMAGR     Field    1 min algorithm flux=  127.459 MicroJy iter=     2353
   3    3   28-FEB-2009  04:03:52     IMAGR     Field    1 Clean flux density=   52.915 MilliJy     2353 comps
   3    3   28-FEB-2009  04:03:52     IMAGR     Total Cleaned flux density     =   90.812 MilliJy    10216 comps
   3    2   28-FEB-2009  04:03:53     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:53     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:55     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:03:55     IMAGR     Field   6 min = -214.4 MicroJy,max =  212.4 MicroJy
   3    2   28-FEB-2009  04:03:56     IMAGR     BGC Clean: using  103 cell beam + residuals >   122.09 MicroJy
   3    2   28-FEB-2009  04:03:56     IMAGR         1479 Residual map points loaded
   3    4   28-FEB-2009  04:03:56     IMAGR     Field    6 min algorithm flux= -126.118 MicroJy iter=     1399
   3    3   28-FEB-2009  04:03:56     IMAGR     Field    6 Clean flux density=    7.872 MilliJy     1399 comps
   3    3   28-FEB-2009  04:03:56     IMAGR     Total Cleaned flux density     =   91.080 MilliJy    10551 comps
   3    2   28-FEB-2009  04:03:58     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:03:58     IMAGR     ALGSTB field    6 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:03:59     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:04:00     IMAGR     Field   5 min = -243.1 MicroJy,max =  214.7 MicroJy
   3    2   28-FEB-2009  04:04:00     IMAGR     BGC Clean: using  103 cell beam + residuals >   121.39 MicroJy
   3    2   28-FEB-2009  04:04:00     IMAGR         1889 Residual map points loaded
   3    4   28-FEB-2009  04:04:00     IMAGR     Field    5 min algorithm flux= -125.711 MicroJy iter=     1692
   3    3   28-FEB-2009  04:04:00     IMAGR     Field    5 Clean flux density=    8.562 MilliJy     1692 comps
   3    3   28-FEB-2009  04:04:00     IMAGR     Total Cleaned flux density     =   91.464 MilliJy    10925 comps
   3    2   28-FEB-2009  04:04:01     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:04:01     IMAGR     ALGSTB field    5 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:04:02     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:04:03     IMAGR     Field   7 min = -220.0 MicroJy,max =  201.7 MicroJy
   3    2   28-FEB-2009  04:04:03     IMAGR     BGC Clean: using  103 cell beam + residuals >   120.74 MicroJy
   3    2   28-FEB-2009  04:04:03     IMAGR         1188 Residual map points loaded
   3    4   28-FEB-2009  04:04:03     IMAGR     Field    7 min algorithm flux=  124.013 MicroJy iter=     1452
   3    3   28-FEB-2009  04:04:03     IMAGR     Field    7 Clean flux density=    7.306 MilliJy     1452 comps
   3    3   28-FEB-2009  04:04:03     IMAGR     Total Cleaned flux density     =   91.415 MilliJy    11217 comps
   3    2   28-FEB-2009  04:04:06     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:04:06     IMAGR     ALGSTB field    7 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:04:07     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:04:08     IMAGR     Field   3 min = -205.0 MicroJy,max =  198.3 MicroJy
   3    2   28-FEB-2009  04:04:10     IMAGR     BGC Clean: using  103 cell beam + residuals >   120.02 MicroJy
   3    2   28-FEB-2009  04:04:11     IMAGR         1912 Residual map points loaded
   3    4   28-FEB-2009  04:04:11     IMAGR     Field    3 min algorithm flux=  124.232 MicroJy iter=     1716
   3    3   28-FEB-2009  04:04:11     IMAGR     Field    3 Clean flux density=    4.652 MilliJy     1716 comps
   3    3   28-FEB-2009  04:04:11     IMAGR     Total Cleaned flux density     =   91.539 MilliJy    11609 comps
   3    2   28-FEB-2009  04:04:13     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:04:13     IMAGR     ALGSTB field    3 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:04:13     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:04:14     IMAGR     Field   4 min = -212.4 MicroJy,max =  204.0 MicroJy
   3    2   28-FEB-2009  04:04:15     IMAGR     BGC Clean: using  103 cell beam + residuals >   119.37 MicroJy
   3    2   28-FEB-2009  04:04:15     IMAGR         1763 Residual map points loaded
   3    4   28-FEB-2009  04:04:15     IMAGR     Field    4 min algorithm flux=  123.355 MicroJy iter=     1605
   3    3   28-FEB-2009  04:04:15     IMAGR     Field    4 Clean flux density=    1.891 MilliJy     1605 comps
   3    3   28-FEB-2009  04:04:15     IMAGR     Total Cleaned flux density     =   91.850 MilliJy    11992 comps
   3    2   28-FEB-2009  04:04:16     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:04:16     IMAGR     ALGSTB field    4 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:04:17     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:04:17     IMAGR     Field   2 min = -191.8 MicroJy,max =  183.1 MicroJy
   3    2   28-FEB-2009  04:04:18     IMAGR     BGC Clean: using  103 cell beam + residuals >   118.55 MicroJy
   3    2   28-FEB-2009  04:04:18     IMAGR         1754 Residual map points loaded
   3    4   28-FEB-2009  04:04:18     IMAGR     Field    2 min Clean flux    = -122.936 MicroJy iter=     1906
   3    5   28-FEB-2009  04:04:18     IMAGR     Field    2 Clean flux density=    6.786 MilliJy     1906 comps
   3    5   28-FEB-2009  04:04:18     IMAGR     Total Cleaned flux density     =   91.785 MilliJy    12257 comps
   3    2   28-FEB-2009  04:04:19     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:04:19     IMAGR     ALGSTB field    2 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:04:21     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:04:22     IMAGR     Field   1 min = -193.4 MicroJy,max =  191.9 MicroJy
   3    2   28-FEB-2009  04:04:22     IMAGR     BGC Clean: using  103 cell beam + residuals >   116.98 MicroJy
   3    2   28-FEB-2009  04:04:22     IMAGR         2286 Residual map points loaded
   3    4   28-FEB-2009  04:04:22     IMAGR     Field    1 min Clean flux    = -122.937 MicroJy iter=     2518
   3    5   28-FEB-2009  04:04:22     IMAGR     Field    1 Clean flux density=   53.052 MilliJy     2518 comps
   3    5   28-FEB-2009  04:04:22     IMAGR     Total Cleaned flux density     =   91.923 MilliJy    12422 comps
   3    2   28-FEB-2009  04:04:25     IMAGR     ALGSTB: All   620 Rows In AP (Max   2059)
   3    2   28-FEB-2009  04:04:25     IMAGR     ALGSTB field    1 Ipol gridded model subtraction chns    1-    2
   3    2   28-FEB-2009  04:04:25     IMAGR     ALGSTB: Pass   1;  609-   0 Cells, with   174806 Pts
   3    4   28-FEB-2009  04:04:26     IMAGR     Field   8 min = -145.7 MicroJy,max =  131.5 MicroJy
   3    2   28-FEB-2009  04:04:27     IMAGR     BGC Clean: using  103 cell beam + residuals >   116.12 MicroJy
   3    2   28-FEB-2009  04:04:29     IMAGR           40 Residual map points loaded
   3    4   28-FEB-2009  04:04:29     IMAGR     Field    8 min Clean flux    = -122.850 MicroJy iter=      136
   3    5   28-FEB-2009  04:04:29     IMAGR     Field    8 Clean flux density=    1.803 MilliJy      136 comps
   3    5   28-FEB-2009  04:04:29     IMAGR     Total Cleaned flux density     =   91.923 MilliJy    12424 comps
   3    2   28-FEB-2009  04:04:30     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:04:30     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:04:31     IMAGR     Field   6 min = -210.9 MicroJy,max =  207.9 MicroJy
   3    2   28-FEB-2009  04:04:31     IMAGR     BGC Clean: using  103 cell beam + residuals >   115.33 MicroJy
   3    2   28-FEB-2009  04:04:31     IMAGR         2501 Residual map points loaded
   3    4   28-FEB-2009  04:04:31     IMAGR     Field    6 min Clean flux    =  122.924 MicroJy iter=     1521
   3    5   28-FEB-2009  04:04:31     IMAGR     Field    6 Clean flux density=    8.168 MilliJy     1521 comps
   3    5   28-FEB-2009  04:04:31     IMAGR     Total Cleaned flux density     =   92.220 MilliJy    12546 comps
   3    2   28-FEB-2009  04:04:31     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:04:31     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:04:40     IMAGR     Field   5 min = -238.8 MicroJy,max =  211.6 MicroJy
   3    2   28-FEB-2009  04:04:41     IMAGR     BGC Clean: using  103 cell beam + residuals >   113.39 MicroJy
   3    2   28-FEB-2009  04:04:41     IMAGR         3880 Residual map points loaded
   3    4   28-FEB-2009  04:04:41     IMAGR     Field    5 min Clean flux    = -122.917 MicroJy iter=     1796
   3    5   28-FEB-2009  04:04:41     IMAGR     Field    5 Clean flux density=    8.585 MilliJy     1796 comps
   3    5   28-FEB-2009  04:04:41     IMAGR     Total Cleaned flux density     =   92.243 MilliJy    12650 comps
   3    2   28-FEB-2009  04:04:41     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:04:41     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:04:48     IMAGR     Field   3 min = -202.6 MicroJy,max =  200.5 MicroJy
   3    2   28-FEB-2009  04:04:48     IMAGR     BGC Clean: using  103 cell beam + residuals >   110.77 MicroJy
   3    2   28-FEB-2009  04:04:48     IMAGR         5864 Residual map points loaded
   3    4   28-FEB-2009  04:04:48     IMAGR     Field    3 min Clean flux    = -122.929 MicroJy iter=     1771
   3    5   28-FEB-2009  04:04:48     IMAGR     Field    3 Clean flux density=    4.739 MilliJy     1771 comps
   3    5   28-FEB-2009  04:04:48     IMAGR     Total Cleaned flux density     =   92.330 MilliJy    12705 comps
   3    2   28-FEB-2009  04:04:48     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:04:48     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:04:53     IMAGR     Field   7 min = -216.4 MicroJy,max =  196.9 MicroJy
   3    2   28-FEB-2009  04:04:53     IMAGR     BGC Clean: using  103 cell beam + residuals >   106.32 MicroJy
   3    2   28-FEB-2009  04:04:53     IMAGR         8221 Residual map points loaded
   3    4   28-FEB-2009  04:04:53     IMAGR     Field    7 min Clean flux    = -122.937 MicroJy iter=     1476
   3    5   28-FEB-2009  04:04:53     IMAGR     Field    7 Clean flux density=    7.206 MilliJy     1476 comps
   3    5   28-FEB-2009  04:04:53     IMAGR     Total Cleaned flux density     =   92.231 MilliJy    12729 comps
   3    2   28-FEB-2009  04:04:53     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:04:53     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:04:57     IMAGR     Field   4 min = -212.5 MicroJy,max =  202.0 MicroJy
   3    2   28-FEB-2009  04:04:58     IMAGR     BGC Clean: using  103 cell beam + residuals >    98.80 MicroJy
   3    2   28-FEB-2009  04:04:58     IMAGR        19973 Residual map points loaded
   3    4   28-FEB-2009  04:04:58     IMAGR     Field    4 min Clean flux    = -122.816 MicroJy iter=     1617
   3    5   28-FEB-2009  04:04:58     IMAGR     Field    4 Clean flux density=    1.916 MilliJy     1617 comps
   3    5   28-FEB-2009  04:04:58     IMAGR     Total Cleaned flux density     =   92.256 MilliJy    12741 comps
   3    2   28-FEB-2009  04:04:58     IMAGR     VISDFT: Begin DFT component subtraction
   3    3   28-FEB-2009  04:04:58     IMAGR     I Polarization model processed
   3    4   28-FEB-2009  04:04:58     IMAGR     Peak residual in window 122.937 less than limit 122.939 MicroJy
   3    3   28-FEB-2009  04:04:58     IMAGR     Merging the Clean components files
   3    3   28-FEB-2009  04:04:58     IMAGR     Field    1 compressed from      2518 to      1616 components
   3    3   28-FEB-2009  04:04:58     IMAGR     Field    2 compressed from      1906 to      1383 components
   3    3   28-FEB-2009  04:04:58     IMAGR     Field    3 compressed from      1771 to      1270 components
   3    3   28-FEB-2009  04:04:58     IMAGR     Field    4 compressed from      1617 to      1207 components
   3    3   28-FEB-2009  04:04:58     IMAGR     Field    5 compressed from      1796 to      1273 components
   3    3   28-FEB-2009  04:04:58     IMAGR     Field    6 compressed from      1521 to      1081 components
   3    3   28-FEB-2009  04:04:58     IMAGR     Field    7 compressed from      1476 to      1060 components
   3    3   28-FEB-2009  04:04:58     IMAGR     Field    8 compressed from       136 to        93 components
   3    4   28-FEB-2009  04:04:59     IMAGR     Field   1 min = -190.9 MicroJy,max =  191.9 MicroJy
   3    4   28-FEB-2009  04:05:02     IMAGR     Field   2 min = -190.4 MicroJy,max =  178.4 MicroJy
   3    4   28-FEB-2009  04:05:03     IMAGR     Field   3 min = -202.3 MicroJy,max =  199.9 MicroJy
   3    4   28-FEB-2009  04:05:06     IMAGR     Field   4 min = -212.7 MicroJy,max =  202.0 MicroJy
   3    4   28-FEB-2009  04:05:06     IMAGR     Field   5 min = -238.3 MicroJy,max =  209.9 MicroJy
   3    4   28-FEB-2009  04:05:07     IMAGR     Field   6 min = -211.7 MicroJy,max =  207.1 MicroJy
   3    4   28-FEB-2009  04:05:08     IMAGR     Field   7 min = -216.0 MicroJy,max =  196.8 MicroJy
   3    4   28-FEB-2009  04:05:09     IMAGR     Field   8 min = -145.8 MicroJy,max =  132.3 MicroJy
   3    3   28-FEB-2009  04:05:09     IMAGR     Restoring Clean components
   3    3   28-FEB-2009  04:05:36     IMAGR     Restoring overlapped Clean components
   3    3   28-FEB-2009  04:05:36     IMAGR     Restore 488.284 MicroJy (   114 CCs) from field   1 to field   2
   3    3   28-FEB-2009  04:05:36     IMAGR     Restore -43.510 MicroJy (   123 CCs) from field   1 to field   3
   3    3   28-FEB-2009  04:05:36     IMAGR     Restore   1.169 MilliJy (   138 CCs) from field   1 to field   4
   3    3   28-FEB-2009  04:05:36     IMAGR     Restore -37.106 MicroJy (   126 CCs) from field   1 to field   5
   3    3   28-FEB-2009  04:05:36     IMAGR     Restore 550.931 MicroJy (   163 CCs) from field   1 to field   6
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore   1.387 MilliJy (   106 CCs) from field   1 to field   7
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore   1.257 MilliJy (   201 CCs) from field   2 to field   1
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore 986.569 MicroJy (   180 CCs) from field   2 to field   3
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore -11.232 MicroJy (   136 CCs) from field   2 to field   4
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore   3.982 MilliJy (    81 CCs) from field   2 to field   8
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore   3.624 MilliJy (   173 CCs) from field   3 to field   1
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore 662.796 MicroJy (   154 CCs) from field   3 to field   2
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore -92.961 MicroJy (    71 CCs) from field   3 to field   5
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore 559.477 MicroJy (   203 CCs) from field   4 to field   1
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore -59.586 MicroJy (   175 CCs) from field   4 to field   2
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore  27.544 MicroJy (    78 CCs) from field   4 to field   6
   3    3   28-FEB-2009  04:05:38     IMAGR     Restore-198.369 MicroJy (   143 CCs) from field   5 to field   1
   3    3   28-FEB-2009  04:05:39     IMAGR     Restore 272.003 MicroJy (   108 CCs) from field   5 to field   3
   3    3   28-FEB-2009  04:05:39     IMAGR     Restore-123.676 MicroJy (   128 CCs) from field   5 to field   7
   3    3   28-FEB-2009  04:05:39     IMAGR     Restore   7.306 MilliJy (   258 CCs) from field   6 to field   1
   3    3   28-FEB-2009  04:05:39     IMAGR     Restore 615.602 MicroJy (    83 CCs) from field   6 to field   4
   3    3   28-FEB-2009  04:05:47     IMAGR     Restore   2.503 MilliJy (   164 CCs) from field   6 to field   7
   3    3   28-FEB-2009  04:05:49     IMAGR     Restore 244.228 MicroJy (   111 CCs) from field   7 to field   1
   3    3   28-FEB-2009  04:05:52     IMAGR     Restore 243.994 MicroJy (   131 CCs) from field   7 to field   5
   3    3   28-FEB-2009  04:05:52     IMAGR     Restore 526.186 MicroJy (   135 CCs) from field   7 to field   6
   3    3   28-FEB-2009  04:05:52     IMAGR     Restore   1.803 MilliJy (    93 CCs) from field   8 to field   2
   3    3   28-FEB-2009  04:05:52     IMAGR     Checking image max/min
   3    3   28-FEB-2009  04:05:53     IMAGR     Field    1 final Clean flux    65.845 MilliJy
   3    3   28-FEB-2009  04:05:53     IMAGR     Field    2 final Clean flux     9.681 MilliJy
   3    3   28-FEB-2009  04:05:53     IMAGR     Field    3 final Clean flux     5.954 MilliJy
   3    3   28-FEB-2009  04:05:53     IMAGR     Field    4 final Clean flux     3.690 MilliJy
   3    3   28-FEB-2009  04:05:53     IMAGR     Field    5 final Clean flux     8.699 MilliJy
   3    3   28-FEB-2009  04:05:53     IMAGR     Field    6 final Clean flux     9.273 MilliJy
   3    3   28-FEB-2009  04:05:53     IMAGR     Field    7 final Clean flux    10.973 MilliJy
   3    3   28-FEB-2009  04:05:53     IMAGR     Field    8 final Clean flux     5.785 MilliJy
   3    6   28-FEB-2009  04:05:53     IMAGR     Deleting UV work file:
   3    4   28-FEB-2009  04:05:53     IMAGR     Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  04:05:53     IMAGR     Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  04:05:53     IMAGR     Destroyed UV image file: catno=     37 disk= 1
   3    3   28-FEB-2009  04:05:53     IMAGR     Appears to have ended successfully
   3    5   28-FEB-2009  04:05:53     IMAGR     vlbacald-b   31DEC07 TST: Cpu=     258.9  Real=     382
   3    2   28-FEB-2009  04:05:53     AIPS      Resumes
   3    3   28-FEB-2009  04:05:55     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:05:55     AIPS      rm -f /tmp/SETFC@NGC7078_LBAND1.0-1 >& /dev/null
   3    5   28-FEB-2009  04:05:55     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:05:56     UVPLT     GFINIS: number records used   32909
   3    2   28-FEB-2009  04:05:56     UVPLT     PLTUV:     699224 Points plotted
   3    2   28-FEB-2009  04:05:56     UVPLT     PLTUV: Plot file version    1  created.
   3    3   28-FEB-2009  04:05:56     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  04:05:56     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.8  Real=       1
   3    2   28-FEB-2009  04:05:56     AIPS      Resumes
   3    5   28-FEB-2009  04:05:56     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:05:56     UVPLT     GFINIS: number records used   16456
   3    2   28-FEB-2009  04:05:56     UVPLT     PLTUV:     349612 Points plotted
   3    2   28-FEB-2009  04:05:56     UVPLT     PLTUV: Plot file version    2  created.
   3    3   28-FEB-2009  04:05:56     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  04:05:56     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.5  Real=       0
   3    2   28-FEB-2009  04:05:56     AIPS      Resumes
   3    5   28-FEB-2009  04:05:57     UVPLT     Task UVPLT  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:05:58     UVPLT     GFINIS: number records used   16457
   3    2   28-FEB-2009  04:05:58     UVPLT     PLTUV:     349612 Points plotted
   3    2   28-FEB-2009  04:05:58     UVPLT     PLTUV: Plot file version    3  created.
   3    3   28-FEB-2009  04:05:58     UVPLT     Appears to have ended successfully
   3    5   28-FEB-2009  04:05:58     UVPLT     vlbacald-b   31DEC07 TST: Cpu=       0.5  Real=       1
   3    2   28-FEB-2009  04:05:58     AIPS      Resumes
   3    4   28-FEB-2009  04:05:58     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:05:59     AIPS      Destroyed MA image file: catno=     38 disk= 1
   3    4   28-FEB-2009  04:05:59     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:00     AIPS      Destroyed MA image file: catno=     39 disk= 1
   3    4   28-FEB-2009  04:06:00     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed MA image file: catno=     40 disk= 1
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed MA image file: catno=     41 disk= 1
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed MA image file: catno=     42 disk= 1
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed MA image file: catno=     43 disk= 1
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed MA image file: catno=     44 disk= 1
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:01     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 in-CNO   46 renumbered as CNO   37
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 in-CNO   47 renumbered as CNO   38
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 in-CNO   48 renumbered as CNO   39
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 in-CNO   49 renumbered as CNO   40
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 in-CNO   50 renumbered as CNO   41
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 in-CNO   51 renumbered as CNO   42
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 in-CNO   52 renumbered as CNO   43
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 in-CNO   53 renumbered as CNO   44
   3    5   28-FEB-2009  04:06:01     AIPS      ' '
   3    5   28-FEB-2009  04:06:01     AIPS      ' '
   3    2   28-FEB-2009  04:06:01     AIPS      Found in Version=ABIN
   3    5   28-FEB-2009  04:06:01     AIPS      '* APPEARS TO HAVE ENDED SUCCESSFULLY *'
   3    0   28-FEB-2009  04:06:01     AIPS
   3    0   28-FEB-2009  04:06:01     AIPS      type'EMPTY CATALOG ?' checkcat
   3    2   28-FEB-2009  04:06:01     AIPS      Disk  1 No files needed renumbering
   3    5   28-FEB-2009  04:06:01     AIPS      'EMPTY CATALOG ?'               44
   3    0   28-FEB-2009  04:06:01     AIPS      flatfov;nvasimage
   3    2   28-FEB-2009  04:06:01     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.LBAND1.1
   3    5   28-FEB-2009  04:06:01     AIPS      '8.3333 SECOND INTEGRATIONS (GUESS)'
   3    2   28-FEB-2009  04:06:01     AIPS      Got(1)   disk= 1  user=****   type=UV   1328+307.LBAND1.1
   3    5   28-FEB-2009  04:06:01     AIPS      'MINIMUM FOV :65.2998 ARCSEC RADIUS'
   3    5   28-FEB-2009  04:06:01     FLATN     Task FLATN  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:01     FLATN     Create 1328+307    .FLATN .   1 (MA)  on disk  1  cno   45
   3    2   28-FEB-2009  04:06:01     AIPS      Resumes
   3    4   28-FEB-2009  04:06:02     FLATN     Field     1 included blc,trc     1     1   310   310
   3    6   28-FEB-2009  04:06:02     FLATN     Field     2 not included in output - outside image
   3    6   28-FEB-2009  04:06:02     FLATN     Field     3 not included in output - outside image
   3    6   28-FEB-2009  04:06:03     FLATN     Field     4 not included in output - outside image
   3    6   28-FEB-2009  04:06:03     FLATN     Field     5 not included in output - outside image
   3    6   28-FEB-2009  04:06:03     FLATN     Field     6 not included in output - outside image
   3    6   28-FEB-2009  04:06:03     FLATN     Field     7 not included in output - outside image
   3    2   28-FEB-2009  04:06:05     FLATN     Now output average image
   3    3   28-FEB-2009  04:06:05     FLATN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:05     FLATN     vlbacald-b   31DEC07 TST: Cpu=       1.8  Real=       4
   3    3   28-FEB-2009  04:06:06     AIPS      Task FLATN   has finished
   3    5   28-FEB-2009  04:06:06     BLANK     Task BLANK  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:06     BLANK     Create 1328+307    .BLANK .   1 (MA)  on disk  1  cno   46
   3    2   28-FEB-2009  04:06:06     AIPS      Resumes
   3    3   28-FEB-2009  04:06:06     BLANK     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:06     BLANK     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:06:06     AIPS      Task BLANK   has finished
   3    4   28-FEB-2009  04:06:06     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:06     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:06     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:06     AIPS      Got(1)   disk= 1  user=****   type=UV   1831-126.LBAND1.1
   3    5   28-FEB-2009  04:06:06     AIPS      'MINIMUM FOV :62.9857 ARCSEC RADIUS'
   3    5   28-FEB-2009  04:06:07     FLATN     Task FLATN  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:07     FLATN     Create 1831-126    .FLATN .   1 (MA)  on disk  1  cno   46
   3    2   28-FEB-2009  04:06:07     AIPS      Resumes
   3    4   28-FEB-2009  04:06:07     FLATN     Field     1 included blc,trc     1     1   310   310
   3    6   28-FEB-2009  04:06:08     FLATN     Field     2 not included in output - outside image
   3    6   28-FEB-2009  04:06:08     FLATN     Field     3 not included in output - outside image
   3    6   28-FEB-2009  04:06:08     FLATN     Field     4 not included in output - outside image
   3    6   28-FEB-2009  04:06:09     FLATN     Field     5 not included in output - outside image
   3    6   28-FEB-2009  04:06:09     FLATN     Field     6 not included in output - outside image
   3    6   28-FEB-2009  04:06:09     FLATN     Field     7 not included in output - outside image
   3    2   28-FEB-2009  04:06:09     FLATN     Now output average image
   3    3   28-FEB-2009  04:06:11     FLATN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:11     FLATN     vlbacald-b   31DEC07 TST: Cpu=       1.8  Real=       4
   3    3   28-FEB-2009  04:06:11     AIPS      Task FLATN   has finished
   3    5   28-FEB-2009  04:06:13     BLANK     Task BLANK  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:13     BLANK     Create 1831-126    .BLANK .   1 (MA)  on disk  1  cno   47
   3    2   28-FEB-2009  04:06:13     AIPS      Resumes
   3    3   28-FEB-2009  04:06:13     BLANK     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:13     BLANK     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:06:13     AIPS      Task BLANK   has finished
   3    4   28-FEB-2009  04:06:13     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:13     AIPS      Destroyed MA image file: catno=     46 disk= 1
   3    2   28-FEB-2009  04:06:13     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:13     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC6712.LBAND1.1
   3    5   28-FEB-2009  04:06:13     AIPS      'MINIMUM FOV :65.3685 ARCSEC RADIUS'
   3    5   28-FEB-2009  04:06:14     FLATN     Task FLATN  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:14     FLATN     Create NGC6712     .FLATN .   1 (MA)  on disk  1  cno   47
   3    2   28-FEB-2009  04:06:14     AIPS      Resumes
   3    4   28-FEB-2009  04:06:14     FLATN     Field     1 included blc,trc     1     1   310   310
   3    6   28-FEB-2009  04:06:14     FLATN     Field     2 not included in output - outside image
   3    6   28-FEB-2009  04:06:14     FLATN     Field     3 not included in output - outside image
   3    6   28-FEB-2009  04:06:15     FLATN     Field     4 not included in output - outside image
   3    6   28-FEB-2009  04:06:15     FLATN     Field     5 not included in output - outside image
   3    6   28-FEB-2009  04:06:15     FLATN     Field     6 not included in output - outside image
   3    6   28-FEB-2009  04:06:15     FLATN     Field     7 not included in output - outside image
   3    2   28-FEB-2009  04:06:15     FLATN     Now output average image
   3    3   28-FEB-2009  04:06:15     FLATN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:15     FLATN     vlbacald-b   31DEC07 TST: Cpu=       1.8  Real=       2
   3    3   28-FEB-2009  04:06:15     AIPS      Task FLATN   has finished
   3    5   28-FEB-2009  04:06:15     BLANK     Task BLANK  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:15     BLANK     Create NGC6712     .BLANK .   1 (MA)  on disk  1  cno   48
   3    2   28-FEB-2009  04:06:16     AIPS      Resumes
   3    3   28-FEB-2009  04:06:18     BLANK     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:18     BLANK     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       3
   3    3   28-FEB-2009  04:06:19     AIPS      Task BLANK   has finished
   3    4   28-FEB-2009  04:06:19     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:19     AIPS      Destroyed MA image file: catno=     47 disk= 1
   3    2   28-FEB-2009  04:06:19     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:19     AIPS      Got(1)   disk= 1  user=****   type=UV   2136+141.LBAND1.1
   3    5   28-FEB-2009  04:06:19     AIPS      'MINIMUM FOV :84.9787 ARCSEC RADIUS'
   3    5   28-FEB-2009  04:06:19     FLATN     Task FLATN  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:20     FLATN     Create 2136+141    .FLATN .   1 (MA)  on disk  1  cno   48
   3    2   28-FEB-2009  04:06:20     AIPS      Resumes
   3    4   28-FEB-2009  04:06:20     FLATN     Field     1 included blc,trc     1     1   310   310
   3    6   28-FEB-2009  04:06:21     FLATN     Field     2 not included in output - outside image
   3    6   28-FEB-2009  04:06:21     FLATN     Field     3 not included in output - outside image
   3    6   28-FEB-2009  04:06:21     FLATN     Field     4 not included in output - outside image
   3    6   28-FEB-2009  04:06:21     FLATN     Field     5 not included in output - outside image
   3    6   28-FEB-2009  04:06:22     FLATN     Field     6 not included in output - outside image
   3    6   28-FEB-2009  04:06:22     FLATN     Field     7 not included in output - outside image
   3    6   28-FEB-2009  04:06:22     FLATN     Field     8 not included in output - outside image
   3    2   28-FEB-2009  04:06:22     FLATN     Now output average image
   3    3   28-FEB-2009  04:06:22     FLATN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:22     FLATN     vlbacald-b   31DEC07 TST: Cpu=       1.8  Real=       3
   3    3   28-FEB-2009  04:06:23     AIPS      Task FLATN   has finished
   3    5   28-FEB-2009  04:06:23     BLANK     Task BLANK  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:23     BLANK     Create 2136+141    .BLANK .   1 (MA)  on disk  1  cno   49
   3    2   28-FEB-2009  04:06:23     AIPS      Resumes
   3    3   28-FEB-2009  04:06:23     BLANK     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:23     BLANK     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:06:24     AIPS      Task BLANK   has finished
   3    4   28-FEB-2009  04:06:24     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:24     AIPS      Destroyed MA image file: catno=     48 disk= 1
   3    2   28-FEB-2009  04:06:24     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:24     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC7078.LBAND1.1
   3    5   28-FEB-2009  04:06:24     AIPS      'MINIMUM FOV :81.7658 ARCSEC RADIUS'
   3    5   28-FEB-2009  04:06:24     FLATN     Task FLATN  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:24     FLATN     Create NGC7078     .FLATN .   1 (MA)  on disk  1  cno   49
   3    2   28-FEB-2009  04:06:24     AIPS      Resumes
   3    4   28-FEB-2009  04:06:24     FLATN     Field     1 included blc,trc     1     1   310   310
   3    6   28-FEB-2009  04:06:24     FLATN     Field     2 not included in output - outside image
   3    6   28-FEB-2009  04:06:24     FLATN     Field     3 not included in output - outside image
   3    6   28-FEB-2009  04:06:25     FLATN     Field     4 not included in output - outside image
   3    6   28-FEB-2009  04:06:25     FLATN     Field     5 not included in output - outside image
   3    6   28-FEB-2009  04:06:25     FLATN     Field     6 not included in output - outside image
   3    6   28-FEB-2009  04:06:25     FLATN     Field     7 not included in output - outside image
   3    6   28-FEB-2009  04:06:25     FLATN     Field     8 not included in output - outside image
   3    2   28-FEB-2009  04:06:25     FLATN     Now output average image
   3    3   28-FEB-2009  04:06:25     FLATN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:25     FLATN     vlbacald-b   31DEC07 TST: Cpu=       1.8  Real=       1
   3    3   28-FEB-2009  04:06:26     AIPS      Task FLATN   has finished
   3    5   28-FEB-2009  04:06:27     BLANK     Task BLANK  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:27     BLANK     Create NGC7078     .BLANK .   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:27     AIPS      Resumes
   3    3   28-FEB-2009  04:06:27     BLANK     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:27     BLANK     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:06:28     AIPS      Task BLANK   has finished
   3    4   28-FEB-2009  04:06:28     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:28     AIPS      Destroyed MA image file: catno=     49 disk= 1
   3    2   28-FEB-2009  04:06:28     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:28     AIPS      Disk  1 No files needed renumbering
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.LBAND1.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.TASAV.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=UV   1328+307.LBAND1.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=UV   1831-126.LBAND1.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC6712.LBAND1.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=UV   2136+141.LBAND1.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC7078.LBAND1.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL001.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL002.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL003.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL004.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL005.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL006.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL007.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL001.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL002.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL003.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL004.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL005.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL006.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL007.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL001.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL002.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL003.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL004.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL005.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL006.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL007.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL001.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL002.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL003.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL004.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL005.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL006.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL007.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL008.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL001.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL002.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL003.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL004.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL005.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL006.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL007.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL008.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.BLANK.1
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.BLANK.1
   3    5   28-FEB-2009  04:06:28     AIPS      Mean= 9.6126E-06 rms= 3.6712E-04 JY/BEAM   over   71429. pixels
   3    5   28-FEB-2009  04:06:28     AIPS      Maximum= 6.0307E-03 at    80    94    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 13 31 10.73919  DEC 30 30 06.7573
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Minimum=-6.1134E-03 at  132  222    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 13 31 09.03923  DEC 30 31 00.8438
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Flux density =  1.7697E-02 Jy.   Beam area =  38.80 pixels
   3    2   28-FEB-2009  04:06:28     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  04:06:28     IMEAN     Task IMEAN  (release of 31DEC07) begins
   3    5   28-FEB-2009  04:06:28     IMEAN     Image= 1328+307    .BLANK .   1 1   xywind=    1    1  310  310
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean and rms found by fitting peak in histogram:
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean= 1.0731E-06 Rms= 1.4781E-04  **** from histogram
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean and rms found by including all data:
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean= 7.7407E-03 Rms= 2.3571E-01 JY/BEAM  over     75029 pixels
   3    5   28-FEB-2009  04:06:28     IMEAN     Flux density =  1.4969E+01 Jy.   beam area =  38.80 pixels
   3    5   28-FEB-2009  04:06:28     IMEAN     Minimum=-6.1134E-03 at  132  222    1    1
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: RA 13 31 09.03923  DEC 30 31 00.8438
   3    5   28-FEB-2009  04:06:28     IMEAN     Maximum= 1.4492E+01 at  155  156    1    1
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: RA 13 31 08.28716  DEC 30 30 32.9562
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: IPOL  1489.900 MHZ
   3    2   28-FEB-2009  04:06:28     IMEAN     returns adverbs to AIPS
   3    3   28-FEB-2009  04:06:28     IMEAN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:28     IMEAN     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:06:28     AIPS      Resumes
   3    3   28-FEB-2009  04:06:28     AIPS      IMEAN    was not found to be running
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.BLANK.1
   3    5   28-FEB-2009  04:06:28     AIPS      Mean= 1.9929E-06 rms= 7.6637E-05 JY/BEAM   over   71429. pixels
   3    5   28-FEB-2009  04:06:28     AIPS      Maximum= 4.3143E-04 at    85    69    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 18 34 21.16565  DEC -12 38 16.4027
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Minimum=-4.5419E-04 at   89   76    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 18 34 21.05427  DEC -12 38 13.5498
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Flux density =  1.7521E-03 Jy.   Beam area =  81.25 pixels
   3    2   28-FEB-2009  04:06:28     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  04:06:28     IMEAN     Task IMEAN  (release of 31DEC07) begins
   3    5   28-FEB-2009  04:06:28     IMEAN     Image= 1831-126    .BLANK .   1 1   xywind=    1    1  310  310
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean and rms found by fitting peak in histogram:
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean=-1.0717E-07 Rms= 7.4146E-05  **** from histogram
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean and rms found by including all data:
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean= 5.6591E-04 Rms= 1.2104E-02 JY/BEAM  over     75029 pixels
   3    5   28-FEB-2009  04:06:28     IMEAN     Flux density =  5.2261E-01 Jy.   beam area =  81.25 pixels
   3    5   28-FEB-2009  04:06:28     IMEAN     Minimum=-4.5419E-04 at   89   76    1    1
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: RA 18 34 21.05427  DEC -12 38 13.5498
   3    5   28-FEB-2009  04:06:28     IMEAN     Maximum= 5.2061E-01 at  155  156    1    1
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: RA 18 34 19.21645  DEC -12 37 40.9448
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: IPOL  1489.900 MHZ
   3    2   28-FEB-2009  04:06:28     IMEAN     returns adverbs to AIPS
   3    3   28-FEB-2009  04:06:28     IMEAN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:28     IMEAN     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:06:28     AIPS      Resumes
   3    3   28-FEB-2009  04:06:28     AIPS      IMEAN    was not found to be running
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.BLANK.1
   3    5   28-FEB-2009  04:06:28     AIPS      Mean= 3.8096E-06 rms= 3.9847E-05 JY/BEAM   over   71429. pixels
   3    5   28-FEB-2009  04:06:28     AIPS      Maximum= 1.6800E-04 at   203   258    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 18 53 03.62569  DEC -08 41 36.9947
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Minimum=-1.6227E-04 at  154  253    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 18 53 05.02350  DEC -08 41 39.1098
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Flux density =  3.7693E-03 Jy.   Beam area =  72.19 pixels
   3    2   28-FEB-2009  04:06:28     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  04:06:28     IMEAN     Task IMEAN  (release of 31DEC07) begins
   3    5   28-FEB-2009  04:06:28     IMEAN     Image= NGC6712     .BLANK .   1 1   xywind=    1    1  310  310
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean and rms found by fitting peak in histogram:
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean= 3.6115E-06 Rms= 4.0125E-05  **** from histogram
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean and rms found by including all data:
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean= 3.9673E-06 Rms= 3.9868E-05 JY/BEAM  over     75029 pixels
   3    5   28-FEB-2009  04:06:28     IMEAN     Flux density =  4.1232E-03 Jy.   beam area =  72.19 pixels
   3    5   28-FEB-2009  04:06:28     IMEAN     Minimum=-1.6227E-04 at  154  253    1    1
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: RA 18 53 05.02350  DEC -08 41 39.1098
   3    5   28-FEB-2009  04:06:28     IMEAN     Maximum= 1.6800E-04 at  203  258    1    1
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: RA 18 53 03.62569  DEC -08 41 36.9947
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: IPOL  1489.900 MHZ
   3    2   28-FEB-2009  04:06:28     IMEAN     returns adverbs to AIPS
   3    3   28-FEB-2009  04:06:28     IMEAN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:28     IMEAN     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:06:28     AIPS      Resumes
   3    3   28-FEB-2009  04:06:28     AIPS      IMEAN    was not found to be running
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.BLANK.1
   3    5   28-FEB-2009  04:06:28     AIPS      Mean= 2.1122E-06 rms= 8.4292E-05 JY/BEAM   over   71429. pixels
   3    5   28-FEB-2009  04:06:28     AIPS      Maximum= 5.4700E-04 at   141   207    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 21 39 01.83947  DEC 14 24 04.0421
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Minimum=-4.6165E-04 at  154   68    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 21 39 01.34745  DEC 14 22 47.6089
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Flux density =  6.3190E-03 Jy.   Beam area =  23.88 pixels
   3    2   28-FEB-2009  04:06:28     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  04:06:28     IMEAN     Task IMEAN  (release of 31DEC07) begins
   3    5   28-FEB-2009  04:06:28     IMEAN     Image= 2136+141    .BLANK .   1 1   xywind=    1    1  310  310
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean and rms found by fitting peak in histogram:
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean= 8.3426E-07 Rms= 8.1545E-05  **** from histogram
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean and rms found by including all data:
   3    5   28-FEB-2009  04:06:28     IMEAN     Mean= 3.7072E-04 Rms= 1.4610E-02 JY/BEAM  over     75029 pixels
   3    5   28-FEB-2009  04:06:28     IMEAN     Flux density =  1.1650E+00 Jy.   beam area =  23.88 pixels
   3    5   28-FEB-2009  04:06:28     IMEAN     Minimum=-4.6165E-04 at  154   68    1    1
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: RA 21 39 01.34745  DEC 14 22 47.6089
   3    5   28-FEB-2009  04:06:28     IMEAN     Maximum= 1.1579E+00 at  155  156    1    1
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: RA 21 39 01.30960  DEC 14 23 35.9983
   3    5   28-FEB-2009  04:06:28     IMEAN     Skypos: IPOL  1489.900 MHZ
   3    2   28-FEB-2009  04:06:28     IMEAN     returns adverbs to AIPS
   3    3   28-FEB-2009  04:06:28     IMEAN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:28     IMEAN     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:06:28     AIPS      Resumes
   3    3   28-FEB-2009  04:06:28     AIPS      IMEAN    was not found to be running
   3    2   28-FEB-2009  04:06:28     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.BLANK.1
   3    5   28-FEB-2009  04:06:28     AIPS      Mean= 1.0946E-06 rms= 6.2974E-05 JY/BEAM   over   71429. pixels
   3    5   28-FEB-2009  04:06:28     AIPS      Maximum= 3.2571E-03 at   120   201    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 21 29 59.39719  DEC 12 10 26.5257
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Minimum=-1.8928E-04 at   88  228    1    1    1    1    1
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: RA 21 30 00.55191  DEC 12 10 40.8106
   3    5   28-FEB-2009  04:06:28     AIPS      Skypos: IPOL  1489.900 MHZ
   3    5   28-FEB-2009  04:06:28     AIPS      Flux density =  3.3091E-03 Jy.   Beam area =  23.63 pixels
   3    2   28-FEB-2009  04:06:29     AIPS      Waiting for returned adverbs
   3    5   28-FEB-2009  04:06:29     IMEAN     Task IMEAN  (release of 31DEC07) begins
   3    5   28-FEB-2009  04:06:29     IMEAN     Image= NGC7078     .BLANK .   1 1   xywind=    1    1  310  310
   3    5   28-FEB-2009  04:06:29     IMEAN     Mean and rms found by fitting peak in histogram:
   3    5   28-FEB-2009  04:06:29     IMEAN     Mean=-8.1979E-07 Rms= 3.9547E-05  **** from histogram
   3    5   28-FEB-2009  04:06:29     IMEAN     Mean and rms found by including all data:
   3    5   28-FEB-2009  04:06:29     IMEAN     Mean= 1.2500E-06 Rms= 6.3100E-05 JY/BEAM  over     75029 pixels
   3    5   28-FEB-2009  04:06:29     IMEAN     Flux density =  3.9693E-03 Jy.   beam area =  23.63 pixels
   3    5   28-FEB-2009  04:06:29     IMEAN     Minimum=-1.8928E-04 at   88  228    1    1
   3    5   28-FEB-2009  04:06:29     IMEAN     Skypos: RA 21 30 00.55191  DEC 12 10 40.8106
   3    5   28-FEB-2009  04:06:29     IMEAN     Maximum= 3.2571E-03 at  120  201    1    1
   3    5   28-FEB-2009  04:06:29     IMEAN     Skypos: RA 21 29 59.39719  DEC 12 10 26.5257
   3    5   28-FEB-2009  04:06:29     IMEAN     Skypos: IPOL  1489.900 MHZ
   3    2   28-FEB-2009  04:06:29     IMEAN     returns adverbs to AIPS
   3    3   28-FEB-2009  04:06:29     IMEAN     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:29     IMEAN     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:06:29     AIPS      Resumes
   3    3   28-FEB-2009  04:06:29     AIPS      IMEAN    was not found to be running
   3    2   28-FEB-2009  04:06:29     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.BLANK.1
   3    2   28-FEB-2009  04:06:29     AIPS      Got(O)   disk= 1  user=****   type=MA   1328+307.BLANK.1
   3    5   28-FEB-2009  04:06:29     PBCOR     Task PBCOR  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:29     PBCOR     Create 1328+307    .RADCOR.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:29     AIPS      Resumes
   3    3   28-FEB-2009  04:06:29     PBCOR     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:29     PBCOR     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:06:29     AIPS      Task PBCOR   has finished
   3    4   28-FEB-2009  04:06:29     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:29     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:29     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:29     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:29     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:29     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:29     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:29     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.BLANK.1
   3    2   28-FEB-2009  04:06:29     AIPS      Got(O)   disk= 1  user=****   type=MA   1831-126.BLANK.1
   3    5   28-FEB-2009  04:06:30     PBCOR     Task PBCOR  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:30     PBCOR     Create 1831-126    .RADCOR.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:30     AIPS      Resumes
   3    3   28-FEB-2009  04:06:30     PBCOR     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:30     PBCOR     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:06:30     AIPS      Task PBCOR   has finished
   3    4   28-FEB-2009  04:06:32     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:32     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:32     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:32     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:32     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:32     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:32     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:32     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.BLANK.1
   3    2   28-FEB-2009  04:06:32     AIPS      Got(O)   disk= 1  user=****   type=MA   NGC6712.BLANK.1
   3    5   28-FEB-2009  04:06:34     PBCOR     Task PBCOR  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:34     PBCOR     Create NGC6712     .RADCOR.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:34     AIPS      Resumes
   3    3   28-FEB-2009  04:06:34     PBCOR     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:34     PBCOR     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:06:34     AIPS      Task PBCOR   has finished
   3    4   28-FEB-2009  04:06:34     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:35     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:35     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.BLANK.1
   3    2   28-FEB-2009  04:06:35     AIPS      Got(O)   disk= 1  user=****   type=MA   2136+141.BLANK.1
   3    5   28-FEB-2009  04:06:35     PBCOR     Task PBCOR  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:35     PBCOR     Create 2136+141    .RADCOR.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:35     AIPS      Resumes
   3    3   28-FEB-2009  04:06:35     PBCOR     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:35     PBCOR     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:06:35     AIPS      Task PBCOR   has finished
   3    4   28-FEB-2009  04:06:35     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:35     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:35     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:35     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.BLANK.1
   3    2   28-FEB-2009  04:06:35     AIPS      Got(O)   disk= 1  user=****   type=MA   NGC7078.BLANK.1
   3    5   28-FEB-2009  04:06:35     PBCOR     Task PBCOR  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:36     PBCOR     Create NGC7078     .RADCOR.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:36     AIPS      Resumes
   3    3   28-FEB-2009  04:06:36     PBCOR     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:36     PBCOR     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       1
   3    3   28-FEB-2009  04:06:36     AIPS      Task PBCOR   has finished
   3    4   28-FEB-2009  04:06:36     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:36     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:36     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:36     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:36     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:36     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:36     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:36     AIPS      Disk  1 No files needed renumbering
   3    2   28-FEB-2009  04:06:36     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.RADCOR.1
   3    2   28-FEB-2009  04:06:36     AIPS      Got(O)   disk= 1  user=****   type=MA   1328+307.RADCOR.1
   3    5   28-FEB-2009  04:06:37     CPYRT     Task CPYRT  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:38     CPYRT     Create 1328+307    .NVAS08.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:38     CPYRT     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  04:06:38     CPYRT     ZTXOP2: /home/vlbacald-b/vlbacald/Arch_Cprt
   3    3   28-FEB-2009  04:06:38     CPYRT     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:38     CPYRT     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       1
   3    2   28-FEB-2009  04:06:38     AIPS      Resumes
   3    3   28-FEB-2009  04:06:38     AIPS      CPYRT    was not found to be running
   3    4   28-FEB-2009  04:06:38     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:38     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:38     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.RADCOR.1
   3    2   28-FEB-2009  04:06:38     AIPS      Got(O)   disk= 1  user=****   type=MA   1831-126.RADCOR.1
   3    5   28-FEB-2009  04:06:38     CPYRT     Task CPYRT  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:38     CPYRT     Create 1831-126    .NVAS08.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:38     CPYRT     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  04:06:38     CPYRT     ZTXOP2: /home/vlbacald-b/vlbacald/Arch_Cprt
   3    3   28-FEB-2009  04:06:38     CPYRT     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:38     CPYRT     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:06:38     AIPS      Resumes
   3    3   28-FEB-2009  04:06:38     AIPS      CPYRT    was not found to be running
   3    4   28-FEB-2009  04:06:38     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:38     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:38     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:38     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.RADCOR.1
   3    2   28-FEB-2009  04:06:38     AIPS      Got(O)   disk= 1  user=****   type=MA   NGC6712.RADCOR.1
   3    5   28-FEB-2009  04:06:39     CPYRT     Task CPYRT  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:39     CPYRT     Create NGC6712     .NVAS08.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:39     CPYRT     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  04:06:39     CPYRT     ZTXOP2: /home/vlbacald-b/vlbacald/Arch_Cprt
   3    3   28-FEB-2009  04:06:39     CPYRT     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:39     CPYRT     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       1
   3    2   28-FEB-2009  04:06:39     AIPS      Resumes
   3    3   28-FEB-2009  04:06:39     AIPS      CPYRT    was not found to be running
   3    4   28-FEB-2009  04:06:39     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:39     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:39     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.RADCOR.1
   3    2   28-FEB-2009  04:06:39     AIPS      Got(O)   disk= 1  user=****   type=MA   2136+141.RADCOR.1
   3    5   28-FEB-2009  04:06:39     CPYRT     Task CPYRT  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:39     CPYRT     Create 2136+141    .NVAS08.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:39     CPYRT     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  04:06:39     CPYRT     ZTXOP2: /home/vlbacald-b/vlbacald/Arch_Cprt
   3    3   28-FEB-2009  04:06:39     CPYRT     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:39     CPYRT     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:06:39     AIPS      Resumes
   3    3   28-FEB-2009  04:06:39     AIPS      CPYRT    was not found to be running
   3    4   28-FEB-2009  04:06:39     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:39     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:39     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    2   28-FEB-2009  04:06:39     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.RADCOR.1
   3    2   28-FEB-2009  04:06:39     AIPS      Got(O)   disk= 1  user=****   type=MA   NGC7078.RADCOR.1
   3    5   28-FEB-2009  04:06:39     CPYRT     Task CPYRT  (release of 31DEC07) begins
   3    2   28-FEB-2009  04:06:39     CPYRT     Create NGC7078     .NVAS08.   1 (MA)  on disk  1  cno   50
   3    2   28-FEB-2009  04:06:39     CPYRT     ZTXOP2: using translated file name =
   3    2   28-FEB-2009  04:06:39     CPYRT     ZTXOP2: /home/vlbacald-b/vlbacald/Arch_Cprt
   3    3   28-FEB-2009  04:06:39     CPYRT     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:39     CPYRT     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:06:39     AIPS      Resumes
   3    3   28-FEB-2009  04:06:39     AIPS      CPYRT    was not found to be running
   3    4   28-FEB-2009  04:06:39     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:06:40     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:06:40     AIPS      Disk  1 in-CNO   46 renumbered as CNO   45
   3    2   28-FEB-2009  04:06:40     AIPS      Disk  1 in-CNO   47 renumbered as CNO   46
   3    2   28-FEB-2009  04:06:40     AIPS      Disk  1 in-CNO   48 renumbered as CNO   47
   3    2   28-FEB-2009  04:06:40     AIPS      Disk  1 in-CNO   49 renumbered as CNO   48
   3    2   28-FEB-2009  04:06:40     AIPS      Disk  1 in-CNO   50 renumbered as CNO   49
   3    0   28-FEB-2009  04:06:40     AIPS      nvasarch
   3    2   28-FEB-2009  04:06:40     AIPS      Disk  1 No files needed renumbering
   3    5   28-FEB-2009  04:06:40     AIPS      'AM0308_1990JUL15_1'
   3    2   28-FEB-2009  04:06:40     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.LBAND1.1
   3    3   28-FEB-2009  04:06:40     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:06:40     AIPS      umask 0;mkdir $ADAT/AM0308 >& /dev/null
   3    5   28-FEB-2009  04:06:40     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:06:40     FITAB     Writing to disk file: ADAT:AM0308_1990JUL15_1_1.51F26BA.uvfits
   3    3   28-FEB-2009  04:06:40     FITAB     Writing UV data: User19800 Disk 1  Name 19900715.LBAND1.1
   3    3   28-FEB-2009  04:06:40     FITAB     Writing visibilities        1 to   479615
   3    3   28-FEB-2009  04:06:40     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:06:40     FITAB     Writing binary table of type FQ
   3    3   28-FEB-2009  04:06:40     FITAB     Writing binary table of type AN
   3    3   28-FEB-2009  04:06:40     FITAB     Writing binary table of type CL
   3    2   28-FEB-2009  04:06:40     AIPS      Resumes
   3    3   28-FEB-2009  04:06:41     FITAB     Writing binary table of type CL
   3    3   28-FEB-2009  04:06:41     FITAB     Writing binary table of type CL
   3    3   28-FEB-2009  04:06:41     FITAB     Writing binary table of type SU
   3    3   28-FEB-2009  04:06:47     FITAB     Writing binary table of type TY
   3    3   28-FEB-2009  04:06:47     FITAB     Writing binary table of type WX
   3    3   28-FEB-2009  04:06:47     FITAB     Writing binary table of type NX
   3    3   28-FEB-2009  04:06:47     FITAB     Writing binary table of type FG
   3    3   28-FEB-2009  04:06:47     FITAB     Writing binary table of type FG
   3    3   28-FEB-2009  04:06:47     FITAB     Writing binary table of type XX
   3    3   28-FEB-2009  04:06:47     FITAB     Writing binary table of type SN
   3    3   28-FEB-2009  04:06:47     FITAB     Writing binary table of type SN
   3    2   28-FEB-2009  04:06:47     FITAB     Writing binary table of type UV
   3    2   28-FEB-2009  04:06:48     FITAB     Writing end-of-file mark
   3    3   28-FEB-2009  04:06:50     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:50     FITAB     vlbacald-b   31DEC07 TST: Cpu=       1.7  Real=      10
   3    3   28-FEB-2009  04:06:50     AIPS      Task FITAB   has finished
   3    2   28-FEB-2009  04:06:50     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.TASAV.1
   3    5   28-FEB-2009  04:06:50     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:06:50     FITAB     Writing to disk file: ADAT:AM0308_1990JUL15_1_1.51F26BA.clfits
   3    3   28-FEB-2009  04:06:50     FITAB     Writing UV data: User19800 Disk 1  Name 19900715.TASAV.1
   3    3   28-FEB-2009  04:06:50     FITAB     Writing visibilities        1 to        1
   3    3   28-FEB-2009  04:06:50     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:06:50     FITAB     Writing binary table of type FQ
   3    3   28-FEB-2009  04:06:50     FITAB     Writing binary table of type AN
   3    3   28-FEB-2009  04:06:50     FITAB     Writing binary table of type CL
   3    2   28-FEB-2009  04:06:50     AIPS      Resumes
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type CL
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type CL
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type SU
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type TY
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type WX
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type NX
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type FG
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type FG
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type XX
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type SN
   3    3   28-FEB-2009  04:06:51     FITAB     Writing binary table of type SN
   3    2   28-FEB-2009  04:06:51     FITAB     Writing binary table of type UV
   3    2   28-FEB-2009  04:06:52     FITAB     Writing end-of-file mark
   3    3   28-FEB-2009  04:06:52     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:52     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.9  Real=       2
   3    3   28-FEB-2009  04:06:52     AIPS      Task FITAB   has finished
   3    3   28-FEB-2009  04:06:52     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:06:52     AIPS      \mv -f $ADAT/AM0308_1990JUL15_1_* $ADAT/AM0308 >& /dev/null
   3    2   28-FEB-2009  04:06:52     AIPS      Got(1)   disk= 1  user=****   type=UV   1328+307.LBAND1.1
   3    2   28-FEB-2009  04:06:52     AIPS      Got(1)   disk= 1  user=****   type=UV   1831-126.LBAND1.1
   3    2   28-FEB-2009  04:06:52     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC6712.LBAND1.1
   3    2   28-FEB-2009  04:06:52     AIPS      Got(1)   disk= 1  user=****   type=UV   2136+141.LBAND1.1
   3    2   28-FEB-2009  04:06:52     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC7078.LBAND1.1
   3    2   28-FEB-2009  04:06:52     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL001.1
   3    2   28-FEB-2009  04:06:52     AIPS      Got(1)   disk= 1  user=****   type=UV   1328+307.LBAND1.1
   3    3   28-FEB-2009  04:06:52     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:06:52     AIPS      umask 0;mkdir $aimg/J133108.2+303032 >& /dev/null
   3    5   28-FEB-2009  04:06:52     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:06:52     FITAB     Writing to disk file: AIMG:1.51F26BA_AM0308_1990JUL15_1.uvfits
   3    3   28-FEB-2009  04:06:52     FITAB     Writing UV data: User19800 Disk 1  Name 1328+307.LBAND1.1
   3    3   28-FEB-2009  04:06:52     FITAB     Writing visibilities        1 to    22309
   3    3   28-FEB-2009  04:06:52     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:06:52     FITAB     Writing binary table of type FQ
   3    3   28-FEB-2009  04:06:52     FITAB     Writing binary table of type AN
   3    3   28-FEB-2009  04:06:52     FITAB     Writing binary table of type WX
   3    3   28-FEB-2009  04:06:52     FITAB     Writing binary table of type XX
   3    2   28-FEB-2009  04:06:52     FITAB     Writing binary table of type UV
   3    2   28-FEB-2009  04:06:52     FITAB     Writing end-of-file mark
   3    3   28-FEB-2009  04:06:52     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:52     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    2   28-FEB-2009  04:06:52     AIPS      Resumes
   3    3   28-FEB-2009  04:06:52     AIPS      FITAB    was not found to be running
   3    5   28-FEB-2009  04:06:52     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:06:52     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:06:52     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:06:52     LWPLA     AM0308_1990JUL15_1.vis.ps
   3    2   28-FEB-2009  04:06:52     LWPLA     Writing plot file version     3 to page    1
   3    2   28-FEB-2009  04:06:53     AIPS      Resumes
   3    3   28-FEB-2009  04:06:53     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:53     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       0.5  Real=       1
   3    3   28-FEB-2009  04:06:53     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:06:53     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:06:53     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.vis.ps $aimg/1.51F26B
   3    3   28-FEB-2009  04:06:53     AIPS      A_AM0308_1990JUL15_1.vis.gif >& /dev/null
   3    5   28-FEB-2009  04:06:58     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:06:59     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:06:59     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:06:59     LWPLA     AM0308_1990JUL15_1.ri.ps
   3    2   28-FEB-2009  04:06:59     LWPLA     Writing plot file version     2 to page    1
   3    3   28-FEB-2009  04:06:59     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:06:59     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       0.5  Real=       1
   3    2   28-FEB-2009  04:07:00     AIPS      Resumes
   3    3   28-FEB-2009  04:07:00     AIPS      LWPLA    was not found to be running
   3    3   28-FEB-2009  04:07:00     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:00     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.ri.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:07:00     AIPS      _AM0308_1990JUL15_1.ri.gif >& /dev/null
   3    5   28-FEB-2009  04:07:02     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:07:02     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:07:02     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:07:02     LWPLA     AM0308_1990JUL15_1.uv.ps
   3    2   28-FEB-2009  04:07:02     LWPLA     Writing plot file version     1 to page    1
   3    2   28-FEB-2009  04:07:02     AIPS      Resumes
   3    3   28-FEB-2009  04:07:03     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:07:03     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       1.0  Real=       1
   3    3   28-FEB-2009  04:07:03     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:07:03     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:03     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.uv.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:07:03     AIPS      _AM0308_1990JUL15_1.uv.gif >& /dev/null
   3    3   28-FEB-2009  04:07:06     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:06     AIPS      chmod 666 $aimg/1.51F26BA_AM0308_1990JUL15_1* >& /dev/null
   3    3   28-FEB-2009  04:07:06     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:06     AIPS      \mv -f $aimg/1.51F26BA_AM0308_1990JUL15_1.* $aimg/J133108.2+3030
   3    3   28-FEB-2009  04:07:06     AIPS      32 >& /dev/null
   3    2   28-FEB-2009  04:07:06     AIPS      Got(1)   disk= 1  user=****   type=UV   1831-126.LBAND1.1
   3    3   28-FEB-2009  04:07:06     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:06     AIPS      umask 0;mkdir $aimg/J183419.2-123740 >& /dev/null
   3    5   28-FEB-2009  04:07:06     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:07:06     FITAB     Writing to disk file: AIMG:1.51F26BA_AM0308_1990JUL15_1.uvfits
   3    3   28-FEB-2009  04:07:06     FITAB     Writing UV data: User19800 Disk 1  Name 1831-126.LBAND1.1
   3    3   28-FEB-2009  04:07:06     FITAB     Writing visibilities        1 to    39190
   3    3   28-FEB-2009  04:07:06     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:07:06     FITAB     Writing binary table of type FQ
   3    3   28-FEB-2009  04:07:06     FITAB     Writing binary table of type AN
   3    3   28-FEB-2009  04:07:06     FITAB     Writing binary table of type WX
   3    3   28-FEB-2009  04:07:06     FITAB     Writing binary table of type XX
   3    2   28-FEB-2009  04:07:06     FITAB     Writing binary table of type UV
   3    2   28-FEB-2009  04:07:06     AIPS      Resumes
   3    2   28-FEB-2009  04:07:06     FITAB     Writing end-of-file mark
   3    3   28-FEB-2009  04:07:06     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:07:06     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       0
   3    3   28-FEB-2009  04:07:07     AIPS      Task FITAB   has finished
   3    5   28-FEB-2009  04:07:07     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:07:07     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:07:07     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:07:07     LWPLA     AM0308_1990JUL15_1.vis.ps
   3    2   28-FEB-2009  04:07:07     LWPLA     Writing plot file version     3 to page    1
   3    2   28-FEB-2009  04:07:07     AIPS      Resumes
   3    3   28-FEB-2009  04:07:08     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:07:08     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       1.0  Real=       1
   3    3   28-FEB-2009  04:07:08     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:07:08     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:08     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.vis.ps $aimg/1.51F26B
   3    3   28-FEB-2009  04:07:08     AIPS      A_AM0308_1990JUL15_1.vis.gif >& /dev/null
   3    5   28-FEB-2009  04:07:10     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:07:10     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:07:10     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:07:10     LWPLA     AM0308_1990JUL15_1.ri.ps
   3    2   28-FEB-2009  04:07:10     LWPLA     Writing plot file version     2 to page    1
   3    2   28-FEB-2009  04:07:10     AIPS      Resumes
   3    3   28-FEB-2009  04:07:11     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:07:11     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       0.9  Real=       1
   3    3   28-FEB-2009  04:07:11     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:07:11     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:11     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.ri.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:07:11     AIPS      _AM0308_1990JUL15_1.ri.gif >& /dev/null
   3    5   28-FEB-2009  04:07:14     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:07:14     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:07:14     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:07:14     LWPLA     AM0308_1990JUL15_1.uv.ps
   3    2   28-FEB-2009  04:07:14     LWPLA     Writing plot file version     1 to page    1
   3    2   28-FEB-2009  04:07:15     AIPS      Resumes
   3    3   28-FEB-2009  04:07:16     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:07:16     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       1.9  Real=       2
   3    3   28-FEB-2009  04:07:16     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:07:16     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:16     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.uv.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:07:16     AIPS      _AM0308_1990JUL15_1.uv.gif >& /dev/null
   3    3   28-FEB-2009  04:07:21     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:21     AIPS      chmod 666 $aimg/1.51F26BA_AM0308_1990JUL15_1* >& /dev/null
   3    3   28-FEB-2009  04:07:21     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:21     AIPS      \mv -f $aimg/1.51F26BA_AM0308_1990JUL15_1.* $aimg/J183419.2-1237
   3    3   28-FEB-2009  04:07:21     AIPS      40 >& /dev/null
   3    2   28-FEB-2009  04:07:21     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC6712.LBAND1.1
   3    3   28-FEB-2009  04:07:21     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:21     AIPS      umask 0;mkdir $aimg/J185304.9-084220 >& /dev/null
   3    5   28-FEB-2009  04:07:21     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:07:21     FITAB     Writing to disk file: AIMG:1.51F26BA_AM0308_1990JUL15_1.uvfits
   3    3   28-FEB-2009  04:07:21     FITAB     Writing UV data: User19800 Disk 1  Name NGC6712.LBAND1.1
   3    3   28-FEB-2009  04:07:21     FITAB     Writing visibilities        1 to   174390
   3    3   28-FEB-2009  04:07:21     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:07:21     FITAB     Writing binary table of type FQ
   3    3   28-FEB-2009  04:07:21     FITAB     Writing binary table of type AN
   3    3   28-FEB-2009  04:07:21     FITAB     Writing binary table of type WX
   3    3   28-FEB-2009  04:07:21     FITAB     Writing binary table of type XX
   3    2   28-FEB-2009  04:07:21     FITAB     Writing binary table of type UV
   3    2   28-FEB-2009  04:07:21     AIPS      Resumes
   3    2   28-FEB-2009  04:07:21     FITAB     Writing end-of-file mark
   3    3   28-FEB-2009  04:07:21     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:07:21     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.3  Real=       0
   3    3   28-FEB-2009  04:07:22     AIPS      Task FITAB   has finished
   3    5   28-FEB-2009  04:07:22     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:07:22     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:07:22     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:07:22     LWPLA     AM0308_1990JUL15_1.vis.ps
   3    2   28-FEB-2009  04:07:22     LWPLA     Writing plot file version     3 to page    1
   3    2   28-FEB-2009  04:07:22     AIPS      Resumes
   3    3   28-FEB-2009  04:07:26     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:07:27     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       4.1  Real=       5
   3    3   28-FEB-2009  04:07:27     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:07:27     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:27     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.vis.ps $aimg/1.51F26B
   3    3   28-FEB-2009  04:07:27     AIPS      A_AM0308_1990JUL15_1.vis.gif >& /dev/null
   3    5   28-FEB-2009  04:07:38     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:07:38     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:07:38     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:07:38     LWPLA     AM0308_1990JUL15_1.ri.ps
   3    2   28-FEB-2009  04:07:38     LWPLA     Writing plot file version     2 to page    1
   3    2   28-FEB-2009  04:07:38     AIPS      Resumes
   3    3   28-FEB-2009  04:07:43     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:07:43     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       4.2  Real=       5
   3    3   28-FEB-2009  04:07:43     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:07:43     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:07:43     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.ri.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:07:43     AIPS      _AM0308_1990JUL15_1.ri.gif >& /dev/null
   3    5   28-FEB-2009  04:07:55     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:07:56     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:07:56     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:07:56     LWPLA     AM0308_1990JUL15_1.uv.ps
   3    2   28-FEB-2009  04:07:56     LWPLA     Writing plot file version     1 to page    1
   3    2   28-FEB-2009  04:07:56     AIPS      Resumes
   3    3   28-FEB-2009  04:08:04     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:08:04     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       8.4  Real=       9
   3    3   28-FEB-2009  04:08:04     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:08:04     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:04     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.uv.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:08:04     AIPS      _AM0308_1990JUL15_1.uv.gif >& /dev/null
   3    3   28-FEB-2009  04:08:25     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:25     AIPS      chmod 666 $aimg/1.51F26BA_AM0308_1990JUL15_1* >& /dev/null
   3    3   28-FEB-2009  04:08:25     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:25     AIPS      \mv -f $aimg/1.51F26BA_AM0308_1990JUL15_1.* $aimg/J185304.9-0842
   3    3   28-FEB-2009  04:08:25     AIPS      20 >& /dev/null
   3    2   28-FEB-2009  04:08:25     AIPS      Got(1)   disk= 1  user=****   type=UV   2136+141.LBAND1.1
   3    3   28-FEB-2009  04:08:25     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:25     AIPS      umask 0;mkdir $aimg/J213901.3+142335 >& /dev/null
   3    5   28-FEB-2009  04:08:25     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:08:25     FITAB     Writing to disk file: AIMG:1.51F26BA_AM0308_1990JUL15_1.uvfits
   3    3   28-FEB-2009  04:08:25     FITAB     Writing UV data: User19800 Disk 1  Name 2136+141.LBAND1.1
   3    3   28-FEB-2009  04:08:25     FITAB     Writing visibilities        1 to    38075
   3    3   28-FEB-2009  04:08:25     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:08:25     FITAB     Writing binary table of type FQ
   3    3   28-FEB-2009  04:08:25     FITAB     Writing binary table of type AN
   3    3   28-FEB-2009  04:08:25     FITAB     Writing binary table of type WX
   3    3   28-FEB-2009  04:08:26     FITAB     Writing binary table of type XX
   3    2   28-FEB-2009  04:08:26     FITAB     Writing binary table of type UV
   3    2   28-FEB-2009  04:08:26     AIPS      Resumes
   3    2   28-FEB-2009  04:08:26     FITAB     Writing end-of-file mark
   3    3   28-FEB-2009  04:08:26     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:08:26     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.1  Real=       1
   3    3   28-FEB-2009  04:08:26     AIPS      Task FITAB   has finished
   3    5   28-FEB-2009  04:08:26     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:08:26     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:08:26     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:08:26     LWPLA     AM0308_1990JUL15_1.vis.ps
   3    2   28-FEB-2009  04:08:26     LWPLA     Writing plot file version     3 to page    1
   3    2   28-FEB-2009  04:08:26     AIPS      Resumes
   3    3   28-FEB-2009  04:08:27     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:08:27     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       0.9  Real=       1
   3    3   28-FEB-2009  04:08:27     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:08:27     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:27     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.vis.ps $aimg/1.51F26B
   3    3   28-FEB-2009  04:08:27     AIPS      A_AM0308_1990JUL15_1.vis.gif >& /dev/null
   3    5   28-FEB-2009  04:08:30     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:08:30     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:08:30     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:08:30     LWPLA     AM0308_1990JUL15_1.ri.ps
   3    2   28-FEB-2009  04:08:30     LWPLA     Writing plot file version     2 to page    1
   3    2   28-FEB-2009  04:08:30     AIPS      Resumes
   3    3   28-FEB-2009  04:08:31     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:08:31     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       0.9  Real=       1
   3    3   28-FEB-2009  04:08:31     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:08:33     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:33     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.ri.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:08:33     AIPS      _AM0308_1990JUL15_1.ri.gif >& /dev/null
   3    5   28-FEB-2009  04:08:37     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:08:37     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:08:37     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:08:37     LWPLA     AM0308_1990JUL15_1.uv.ps
   3    2   28-FEB-2009  04:08:37     LWPLA     Writing plot file version     1 to page    1
   3    2   28-FEB-2009  04:08:38     AIPS      Resumes
   3    3   28-FEB-2009  04:08:39     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:08:39     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       1.8  Real=       2
   3    3   28-FEB-2009  04:08:39     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:08:39     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:39     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.uv.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:08:39     AIPS      _AM0308_1990JUL15_1.uv.gif >& /dev/null
   3    3   28-FEB-2009  04:08:44     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:44     AIPS      chmod 666 $aimg/1.51F26BA_AM0308_1990JUL15_1* >& /dev/null
   3    3   28-FEB-2009  04:08:44     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:44     AIPS      \mv -f $aimg/1.51F26BA_AM0308_1990JUL15_1.* $aimg/J213901.3+1423
   3    3   28-FEB-2009  04:08:44     AIPS      35 >& /dev/null
   3    2   28-FEB-2009  04:08:44     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC7078.LBAND1.1
   3    3   28-FEB-2009  04:08:44     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:44     AIPS      umask 0;mkdir $aimg/J212958.1+121002 >& /dev/null
   3    5   28-FEB-2009  04:08:45     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:08:45     FITAB     Writing to disk file: AIMG:1.51F26BA_AM0308_1990JUL15_1.uvfits
   3    3   28-FEB-2009  04:08:45     FITAB     Writing UV data: User19800 Disk 1  Name NGC7078.LBAND1.1
   3    3   28-FEB-2009  04:08:45     FITAB     Writing visibilities        1 to   174806
   3    3   28-FEB-2009  04:08:45     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:08:45     FITAB     Writing binary table of type FQ
   3    3   28-FEB-2009  04:08:45     FITAB     Writing binary table of type AN
   3    3   28-FEB-2009  04:08:45     FITAB     Writing binary table of type WX
   3    3   28-FEB-2009  04:08:45     FITAB     Writing binary table of type XX
   3    2   28-FEB-2009  04:08:45     FITAB     Writing binary table of type UV
   3    2   28-FEB-2009  04:08:45     AIPS      Resumes
   3    2   28-FEB-2009  04:08:45     FITAB     Writing end-of-file mark
   3    3   28-FEB-2009  04:08:45     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:08:45     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.3  Real=       0
   3    3   28-FEB-2009  04:08:45     AIPS      Task FITAB   has finished
   3    5   28-FEB-2009  04:08:45     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:08:45     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:08:45     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:08:45     LWPLA     AM0308_1990JUL15_1.vis.ps
   3    2   28-FEB-2009  04:08:45     LWPLA     Writing plot file version     3 to page    1
   3    2   28-FEB-2009  04:08:45     AIPS      Resumes
   3    3   28-FEB-2009  04:08:50     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:08:50     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       4.2  Real=       5
   3    3   28-FEB-2009  04:08:50     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:08:50     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:08:50     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.vis.ps $aimg/1.51F26B
   3    3   28-FEB-2009  04:08:50     AIPS      A_AM0308_1990JUL15_1.vis.gif >& /dev/null
   3    5   28-FEB-2009  04:09:00     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:09:00     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:09:00     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:09:00     LWPLA     AM0308_1990JUL15_1.ri.ps
   3    2   28-FEB-2009  04:09:00     LWPLA     Writing plot file version     2 to page    1
   3    2   28-FEB-2009  04:09:01     AIPS      Resumes
   3    3   28-FEB-2009  04:09:05     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:09:05     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       4.2  Real=       5
   3    3   28-FEB-2009  04:09:05     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:09:05     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:05     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.ri.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:09:05     AIPS      _AM0308_1990JUL15_1.ri.gif >& /dev/null
   3    5   28-FEB-2009  04:09:17     LWPLA     Task LWPLA  (release of 31DEC07) begins
   3    3   28-FEB-2009  04:09:17     LWPLA     No clipping or scaling applied to grey scale pixels
   3    6   28-FEB-2009  04:09:17     LWPLA     ZLWIO: plotter file = /home/vlbacald-b/vlbacald/img/1.51F26BA_
   3    6   28-FEB-2009  04:09:17     LWPLA     AM0308_1990JUL15_1.uv.ps
   3    2   28-FEB-2009  04:09:17     LWPLA     Writing plot file version     1 to page    1
   3    2   28-FEB-2009  04:09:17     AIPS      Resumes
   3    3   28-FEB-2009  04:09:26     LWPLA     Appears to have ended successfully
   3    5   28-FEB-2009  04:09:26     LWPLA     vlbacald-b   31DEC07 TST: Cpu=       8.4  Real=       9
   3    3   28-FEB-2009  04:09:26     AIPS      Task LWPLA   has finished
   3    3   28-FEB-2009  04:09:26     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:26     AIPS      convert $aimg/1.51F26BA_AM0308_1990JUL15_1.uv.ps $aimg/1.51F26BA
   3    3   28-FEB-2009  04:09:26     AIPS      _AM0308_1990JUL15_1.uv.gif >& /dev/null
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      chmod 666 $aimg/1.51F26BA_AM0308_1990JUL15_1* >& /dev/null
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      \mv -f $aimg/1.51F26BA_AM0308_1990JUL15_1.* $aimg/J212958.1+1210
   3    3   28-FEB-2009  04:09:47     AIPS      02 >& /dev/null
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL001.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL002.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL003.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL004.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL005.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL006.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL007.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL001.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL002.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL003.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL004.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL005.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL006.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL007.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL001.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL002.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL003.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL004.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL005.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL006.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL007.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL001.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL002.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL003.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL004.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL005.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL006.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL007.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL008.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL001.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL002.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL003.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL004.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL005.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL006.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL007.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL008.1
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.NVAS08.1
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;mkdir $aimg/J133108.2+303032 >& /dev/null
   3    5   28-FEB-2009  04:09:47     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:09:47     FITAB     Writing to disk file: AIMG:1.51I2.78_AM0308_1990JUL15_1_147.U1.01M
   3    3   28-FEB-2009  04:09:47     FITAB     Writing image: User19800  Disk 1  Name 1328+307.NVAS08.1
   3    3   28-FEB-2009  04:09:47     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:09:47     FITAB     Now writing the image
   3    2   28-FEB-2009  04:09:47     FITAB     Writing end-of-file marks
   3    3   28-FEB-2009  04:09:47     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:09:47     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:09:47     AIPS      Resumes
   3    3   28-FEB-2009  04:09:47     AIPS      FITAB    was not found to be running
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;\mv -f $aimg/1.51I2.78_AM0308_1990JUL15_1_147.U1.01M  $a
   3    3   28-FEB-2009  04:09:47     AIPS      img/1.51I2.78_AM0308_1990JUL15_1_147.U1.01M.imfits >& /dev/null
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;fits2jpeg -nonLinear -fits $aimg/1.51I2.78_AM0308_1990JU
   3    3   28-FEB-2009  04:09:47     AIPS      L15_1_147.U1.01M.imfits -jpeg $aimg/1.51I2.78_AM0308_1990JUL15_1
   3    3   28-FEB-2009  04:09:47     AIPS      _147.U1.01M.jpg ; convert -size 150x150 $aimg/1.51I2.78_AM0308_1
   3    3   28-FEB-2009  04:09:47     AIPS      990JUL15_1_147.U1.01M.jpg -resize 150x150 -gamma 1.5 -depth 32 $
   3    3   28-FEB-2009  04:09:47     AIPS      aimg/1.51I2.78_AM0308_1990JUL15_1_147.U1.01M.JPG ; \mv -f $aimg/
   3    3   28-FEB-2009  04:09:47     AIPS      1.51I2.78_AM0308_1990JUL15_1_147.U1.01M* $aimg/J133108.2+303032
   3    3   28-FEB-2009  04:09:47     AIPS      >& /dev/null
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.NVAS08.1
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;mkdir $aimg/J183419.2-123740 >& /dev/null
   3    5   28-FEB-2009  04:09:47     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:09:47     FITAB     Writing to disk file: AIMG:1.51I3.51_AM0308_1990JUL15_1_74.1U58.6S
   3    3   28-FEB-2009  04:09:47     FITAB     Writing image: User19800  Disk 1  Name 1831-126.NVAS08.1
   3    3   28-FEB-2009  04:09:47     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:09:47     FITAB     Now writing the image
   3    2   28-FEB-2009  04:09:47     FITAB     Writing end-of-file marks
   3    3   28-FEB-2009  04:09:47     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:09:47     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:09:47     AIPS      Resumes
   3    3   28-FEB-2009  04:09:47     AIPS      FITAB    was not found to be running
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;\mv -f $aimg/1.51I3.51_AM0308_1990JUL15_1_74.1U58.6S  $a
   3    3   28-FEB-2009  04:09:47     AIPS      img/1.51I3.51_AM0308_1990JUL15_1_74.1U58.6S.imfits >& /dev/null
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;fits2jpeg -nonLinear -fits $aimg/1.51I3.51_AM0308_1990JU
   3    3   28-FEB-2009  04:09:47     AIPS      L15_1_74.1U58.6S.imfits -jpeg $aimg/1.51I3.51_AM0308_1990JUL15_1
   3    3   28-FEB-2009  04:09:47     AIPS      _74.1U58.6S.jpg ; convert -size 150x150 $aimg/1.51I3.51_AM0308_1
   3    3   28-FEB-2009  04:09:47     AIPS      990JUL15_1_74.1U58.6S.jpg -resize 150x150 -gamma 1.5 -depth 32 $
   3    3   28-FEB-2009  04:09:47     AIPS      aimg/1.51I3.51_AM0308_1990JUL15_1_74.1U58.6S.JPG ; \mv -f $aimg/
   3    3   28-FEB-2009  04:09:47     AIPS      1.51I3.51_AM0308_1990JUL15_1_74.1U58.6S* $aimg/J183419.2-123740
   3    3   28-FEB-2009  04:09:47     AIPS      >& /dev/null
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.NVAS08.1
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;mkdir $aimg/J185304.9-084220 >& /dev/null
   3    5   28-FEB-2009  04:09:47     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:09:47     FITAB     Writing to disk file: AIMG:1.51I3.41_AM0308_1990JUL15_1_40.1U1.01M
   3    3   28-FEB-2009  04:09:47     FITAB     Writing image: User19800  Disk 1  Name NGC6712.NVAS08.1
   3    3   28-FEB-2009  04:09:47     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:09:47     FITAB     Now writing the image
   3    2   28-FEB-2009  04:09:47     FITAB     Writing end-of-file marks
   3    3   28-FEB-2009  04:09:47     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:09:47     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:09:47     AIPS      Resumes
   3    3   28-FEB-2009  04:09:47     AIPS      FITAB    was not found to be running
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;\mv -f $aimg/1.51I3.41_AM0308_1990JUL15_1_40.1U1.01M  $a
   3    3   28-FEB-2009  04:09:47     AIPS      img/1.51I3.41_AM0308_1990JUL15_1_40.1U1.01M.imfits >& /dev/null
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;fits2jpeg -nonLinear -fits $aimg/1.51I3.41_AM0308_1990JU
   3    3   28-FEB-2009  04:09:47     AIPS      L15_1_40.1U1.01M.imfits -jpeg $aimg/1.51I3.41_AM0308_1990JUL15_1
   3    3   28-FEB-2009  04:09:47     AIPS      _40.1U1.01M.jpg ; convert -size 150x150 $aimg/1.51I3.41_AM0308_1
   3    3   28-FEB-2009  04:09:47     AIPS      990JUL15_1_40.1U1.01M.jpg -resize 150x150 -gamma 1.5 -depth 32 $
   3    3   28-FEB-2009  04:09:47     AIPS      aimg/1.51I3.41_AM0308_1990JUL15_1_40.1U1.01M.JPG ; \mv -f $aimg/
   3    3   28-FEB-2009  04:09:47     AIPS      1.51I3.41_AM0308_1990JUL15_1_40.1U1.01M* $aimg/J185304.9-084220
   3    3   28-FEB-2009  04:09:47     AIPS      >& /dev/null
   3    2   28-FEB-2009  04:09:47     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.NVAS08.1
   3    3   28-FEB-2009  04:09:47     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:47     AIPS      umask 0;mkdir $aimg/J213901.3+142335 >& /dev/null
   3    5   28-FEB-2009  04:09:48     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:09:48     FITAB     Writing to disk file: AIMG:1.51I2.75_AM0308_1990JUL15_1_81.5U1.34M
   3    3   28-FEB-2009  04:09:48     FITAB     Writing image: User19800  Disk 1  Name 2136+141.NVAS08.1
   3    3   28-FEB-2009  04:09:48     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:09:48     FITAB     Now writing the image
   3    2   28-FEB-2009  04:09:48     FITAB     Writing end-of-file marks
   3    3   28-FEB-2009  04:09:48     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:09:48     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:09:48     AIPS      Resumes
   3    3   28-FEB-2009  04:09:48     AIPS      FITAB    was not found to be running
   3    3   28-FEB-2009  04:09:48     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:48     AIPS      umask 0;\mv -f $aimg/1.51I2.75_AM0308_1990JUL15_1_81.5U1.34M  $a
   3    3   28-FEB-2009  04:09:48     AIPS      img/1.51I2.75_AM0308_1990JUL15_1_81.5U1.34M.imfits >& /dev/null
   3    3   28-FEB-2009  04:09:48     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:48     AIPS      umask 0;fits2jpeg -nonLinear -fits $aimg/1.51I2.75_AM0308_1990JU
   3    3   28-FEB-2009  04:09:48     AIPS      L15_1_81.5U1.34M.imfits -jpeg $aimg/1.51I2.75_AM0308_1990JUL15_1
   3    3   28-FEB-2009  04:09:48     AIPS      _81.5U1.34M.jpg ; convert -size 150x150 $aimg/1.51I2.75_AM0308_1
   3    3   28-FEB-2009  04:09:48     AIPS      990JUL15_1_81.5U1.34M.jpg -resize 150x150 -gamma 1.5 -depth 32 $
   3    3   28-FEB-2009  04:09:48     AIPS      aimg/1.51I2.75_AM0308_1990JUL15_1_81.5U1.34M.JPG ; \mv -f $aimg/
   3    3   28-FEB-2009  04:09:48     AIPS      1.51I2.75_AM0308_1990JUL15_1_81.5U1.34M* $aimg/J213901.3+142335
   3    3   28-FEB-2009  04:09:48     AIPS      >& /dev/null
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.NVAS08.1
   3    3   28-FEB-2009  04:09:48     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:48     AIPS      umask 0;mkdir $aimg/J212958.1+121002 >& /dev/null
   3    5   28-FEB-2009  04:09:48     FITAB     Task FITAB  (release of 31DEC07) begins
   3    4   28-FEB-2009  04:09:48     FITAB     Writing to disk file: AIMG:1.51I2.67_AM0308_1990JUL15_1_39.5U1.29M
   3    3   28-FEB-2009  04:09:48     FITAB     Writing image: User19800  Disk 1  Name NGC7078.NVAS08.1
   3    3   28-FEB-2009  04:09:48     FITAB     Writing HIstory to main FITS header
   3    3   28-FEB-2009  04:09:48     FITAB     Now writing the image
   3    2   28-FEB-2009  04:09:48     FITAB     Writing end-of-file marks
   3    3   28-FEB-2009  04:09:48     FITAB     Appears to have ended successfully
   3    5   28-FEB-2009  04:09:48     FITAB     vlbacald-b   31DEC07 TST: Cpu=       0.0  Real=       0
   3    2   28-FEB-2009  04:09:48     AIPS      Resumes
   3    3   28-FEB-2009  04:09:48     AIPS      FITAB    was not found to be running
   3    3   28-FEB-2009  04:09:48     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:48     AIPS      umask 0;\mv -f $aimg/1.51I2.67_AM0308_1990JUL15_1_39.5U1.29M  $a
   3    3   28-FEB-2009  04:09:48     AIPS      img/1.51I2.67_AM0308_1990JUL15_1_39.5U1.29M.imfits >& /dev/null
   3    3   28-FEB-2009  04:09:48     AIPS      SYSTEM command to be executed is:
   3    3   28-FEB-2009  04:09:48     AIPS      umask 0;fits2jpeg -nonLinear -fits $aimg/1.51I2.67_AM0308_1990JU
   3    3   28-FEB-2009  04:09:48     AIPS      L15_1_39.5U1.29M.imfits -jpeg $aimg/1.51I2.67_AM0308_1990JUL15_1
   3    3   28-FEB-2009  04:09:48     AIPS      _39.5U1.29M.jpg ; convert -size 150x150 $aimg/1.51I2.67_AM0308_1
   3    3   28-FEB-2009  04:09:48     AIPS      990JUL15_1_39.5U1.29M.jpg -resize 150x150 -gamma 1.5 -depth 32 $
   3    3   28-FEB-2009  04:09:48     AIPS      aimg/1.51I2.67_AM0308_1990JUL15_1_39.5U1.29M.JPG ; \mv -f $aimg/
   3    3   28-FEB-2009  04:09:48     AIPS      1.51I2.67_AM0308_1990JUL15_1_39.5U1.29M* $aimg/J212958.1+121002
   3    3   28-FEB-2009  04:09:48     AIPS      >& /dev/null
   3    5   28-FEB-2009  04:09:48     AIPS      'NVASARCH DONE - CLEANING UP'
   3    2   28-FEB-2009  04:09:48     AIPS      Disk  1 No files needed renumbering
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.LBAND1.1
   3    5   28-FEB-2009  04:09:48     AIPS      'CLEANUP SSRC, ALL:'             5            49
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.NVAS08.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     49 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.NVAS08.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     48 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.NVAS08.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     47 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.NVAS08.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     46 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.NVAS08.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     45 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL008.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     44 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL007.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     43 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL006.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     42 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL005.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     41 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL004.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     40 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL003.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     39 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL002.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     38 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC7078.ICL001.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     37 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL008.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     36 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL007.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     35 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL006.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     34 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL005.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     33 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL004.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     32 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL003.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     31 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL002.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     30 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   2136+141.ICL001.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     29 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL007.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     28 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL006.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     27 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL005.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed MA image file: catno=     26 disk= 1
   3    2   28-FEB-2009  04:09:48     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL004.1
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:48     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed MA image file: catno=     25 disk= 1
   3    2   28-FEB-2009  04:09:49     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL003.1
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed MA image file: catno=     24 disk= 1
   3    2   28-FEB-2009  04:09:49     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL002.1
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed MA image file: catno=     23 disk= 1
   3    2   28-FEB-2009  04:09:49     AIPS      Got(1)   disk= 1  user=****   type=MA   NGC6712.ICL001.1
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed MA image file: catno=     22 disk= 1
   3    2   28-FEB-2009  04:09:49     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL007.1
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:49     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:50     AIPS      Destroyed MA image file: catno=     21 disk= 1
   3    2   28-FEB-2009  04:09:50     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL006.1
   3    4   28-FEB-2009  04:09:50     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:50     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:53     AIPS      Destroyed MA image file: catno=     20 disk= 1
   3    2   28-FEB-2009  04:09:53     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL005.1
   3    4   28-FEB-2009  04:09:53     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:53     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:53     AIPS      Destroyed MA image file: catno=     19 disk= 1
   3    2   28-FEB-2009  04:09:54     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL004.1
   3    4   28-FEB-2009  04:09:54     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:54     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:55     AIPS      Destroyed MA image file: catno=     18 disk= 1
   3    2   28-FEB-2009  04:09:55     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL003.1
   3    4   28-FEB-2009  04:09:55     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:55     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed MA image file: catno=     17 disk= 1
   3    2   28-FEB-2009  04:09:58     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL002.1
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed MA image file: catno=     16 disk= 1
   3    2   28-FEB-2009  04:09:58     AIPS      Got(1)   disk= 1  user=****   type=MA   1831-126.ICL001.1
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed MA image file: catno=     15 disk= 1
   3    2   28-FEB-2009  04:09:58     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL007.1
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed MA image file: catno=     14 disk= 1
   3    2   28-FEB-2009  04:09:58     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL006.1
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed MA image file: catno=     13 disk= 1
   3    2   28-FEB-2009  04:09:58     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL005.1
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed MA image file: catno=     12 disk= 1
   3    2   28-FEB-2009  04:09:58     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL004.1
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:58     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:09:59     AIPS      Destroyed MA image file: catno=     11 disk= 1
   3    2   28-FEB-2009  04:09:59     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL003.1
   3    4   28-FEB-2009  04:09:59     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:09:59     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:10:01     AIPS      Destroyed MA image file: catno=     10 disk= 1
   3    2   28-FEB-2009  04:10:01     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL002.1
   3    4   28-FEB-2009  04:10:01     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:02     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed MA image file: catno=      9 disk= 1
   3    2   28-FEB-2009  04:10:03     AIPS      Got(1)   disk= 1  user=****   type=MA   1328+307.ICL001.1
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type CC
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed MA image file: catno=      8 disk= 1
   3    2   28-FEB-2009  04:10:03     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC7078.LBAND1.1
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  3 extension files of type PL
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type XX
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type WX
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed UV image file: catno=      7 disk= 1
   3    2   28-FEB-2009  04:10:03     AIPS      Got(1)   disk= 1  user=****   type=UV   2136+141.LBAND1.1
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  3 extension files of type PL
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type XX
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type WX
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed UV image file: catno=      6 disk= 1
   3    2   28-FEB-2009  04:10:03     AIPS      Got(1)   disk= 1  user=****   type=UV   NGC6712.LBAND1.1
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  3 extension files of type PL
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type XX
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type WX
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed UV image file: catno=      5 disk= 1
   3    2   28-FEB-2009  04:10:03     AIPS      Got(1)   disk= 1  user=****   type=UV   1831-126.LBAND1.1
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  3 extension files of type PL
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type XX
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type WX
   3    4   28-FEB-2009  04:10:03     AIPS      Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  04:10:04     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:04     AIPS      Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  04:10:04     AIPS      Destroyed UV image file: catno=      4 disk= 1
   3    2   28-FEB-2009  04:10:04     AIPS      Got(1)   disk= 1  user=****   type=UV   1328+307.LBAND1.1
   3    4   28-FEB-2009  04:10:04     AIPS      Destroyed  3 extension files of type PL
   3    4   28-FEB-2009  04:10:05     AIPS      Destroyed  1 extension files of type XX
   3    4   28-FEB-2009  04:10:06     AIPS      Destroyed  1 extension files of type WX
   3    4   28-FEB-2009  04:10:06     AIPS      Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  04:10:06     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:06     AIPS      Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  04:10:06     AIPS      Destroyed UV image file: catno=      3 disk= 1
   3    2   28-FEB-2009  04:10:06     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.TASAV.1
   3    4   28-FEB-2009  04:10:06     AIPS      Destroyed  2 extension files of type SN
   3    4   28-FEB-2009  04:10:07     AIPS      Destroyed  1 extension files of type XX
   3    4   28-FEB-2009  04:10:07     AIPS      Destroyed  2 extension files of type FG
   3    4   28-FEB-2009  04:10:07     AIPS      Destroyed  1 extension files of type NX
   3    4   28-FEB-2009  04:10:07     AIPS      Destroyed  1 extension files of type WX
   3    4   28-FEB-2009  04:10:07     AIPS      Destroyed  1 extension files of type TY
   3    4   28-FEB-2009  04:10:07     AIPS      Destroyed  1 extension files of type SU
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  3 extension files of type CL
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed UV image file: catno=      2 disk= 1
   3    2   28-FEB-2009  04:10:08     AIPS      Got(1)   disk= 1  user=****   type=UV   19900715.LBAND1.1
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  2 extension files of type SN
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type XX
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  2 extension files of type FG
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type NX
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type WX
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type TY
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type SU
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  3 extension files of type CL
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type AN
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type HI
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed  1 extension files of type FQ
   3    4   28-FEB-2009  04:10:08     AIPS      Destroyed UV image file: catno=      1 disk= 1
   3    0   28-FEB-2009  04:10:08     AIPS      tget prtmsg;prtmsg;docrt 1

/home/vlbacald-b/vlbacald/run/AM0308_1990JUL15_1.1.run     finished on Sat Feb 28 04:10:11 MST 2009